Venezuelan equine encephalitis virus infection of cotton rats.Venezuelan equine encephalitis virus Venezuelan equine encephalitis virus is a mosquito-borne viral pathogen that causes Venezuelan equine encephalitis or encephalomyelitis (VEE). VEE can affect all equine species, such as horses, asses, and zebras. (VEEV) is an emerging pathogen of equids and humans, but infection of its rodent reservoir hosts has received little study. To determine whether responses to infection vary among geographic populations, we inoculated 3 populations of cotton rats with 2 enzootic en·zo·ot·ic adj. Prevalent among or restricted to animals of a specific geographic area. Used of a disease. n. An enzootic disease. enzootic peculiar to or present constantly in a location. See also endemic. VEEV strains (Co97-0054 [enzootic ID subtype] and 68U201 [enzootic IE subtype]). The 3 populations were offspring from wild-caught cotton rats collected in a VEE-enzootic area of south Florida, USA; wild-caught cotton rats from a non-VEE-enzootic area of Texas, USA; and commercially available (Harlan) colony-reared cotton rats from a non-VEE-enzootic region. Although each population had similar early viremia viremia /vi·re·mia/ (vi-re´me-ah) the presence of viruses in the blood. vi·re·mi·a n. The presence of viruses in the bloodstream. titers, no detectable disease developed in the VEE-sympatric Florida animals, but severe disease and death affected the Texas and Harlan animals. Our findings suggest that the geographic origins of cotton rats are important determinants of the outcome of VEE infection and reservoir potential of these rodents. ********** Vertebrate reservoir hosts play an important role in maintenance and dissemination of zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis pathogens. For arthropodborne viruses (arboviruses arboviruses (ar´bōvī´r  sz),n. ), infected hosts generally show little or no disease, which presumably pre·sum·a·ble adj. That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. reflects long-term selection for host resistance and possibly virus attenuation Loss of signal power in a transmission. Attenuation The reduction in level of a transmitted quantity as a function of a parameter, usually distance. It is applied mainly to acoustic or electromagnetic waves and is expressed as the ratio of power densities. (1,2). Understanding how pathogens affect their reservoir hosts as well as how the reservoir affects fitness and replication of the pathogen could enable better prediction of emergence, reemergence, or extinction of zoonotic pathogens in response to environmental changes. For example, changes in a reservoir host's habitats and ecology, due to anthropogenic an·thro·po·gen·ic adj. 1. Of or relating to anthropogenesis. 2. Caused by humans: anthropogenic degradation of the environment. or natural causes, may affect pathogen transmission to humans and domestic animals. A better understanding of reservoir biology and of pathogen-reservoir interactions, particularly their mechanisms of disease resistance, could also facilitate the development of treatment and control strategies for humans and domestic animals (3,4). Venezuelan equine encephalitis virus (VEEV), a member of the family Togaviridae, genus Alphavirus (5), was first isolated and characterized in 1938 (6, 7) and affects humans and equids in the Americas (8,9). VEEV strains are classified into 2 epidemiologic groups: enzootic and epizootic ep·i·zo·ot·ic adj. Affecting a large number of animals at the same time within a particular region or geographic area. Used of a disease. ep . Enzootic strains (subtype I, varieties D and E, as well as related species in the VEE complex comprising subtypes II-VI) have been regularly isolated in lowland tropical forests and swamps in Florida, Mexico, and Central and South America. These enzootic viruses generally circulate between Culex Culex /Cu·lex/ (ku´leks) a genus of mosquitoes found throughout the world, many species of which are vectors of disease-producing organisms. Cu·lex n. (Melanoconion) spp. mosquito vectors and rodent reservoirs and are usually avirulent a·vir·u·lent adj. Not virulent. for and incapable of amplification in equids (8). In contrast, epizootic (and epidemic) VEEV strains (subtype I, variety AB and variety C), have been responsible for all major equine outbreaks that have involved other mosquito vectors, primarily Aedes and Psorophora spp. Epizootics and epidemics have occurred from southern North America to northern South America Northern South America is a region in the continent South America. This region has a rich range of natural resources exploited to European explorers over the past couple of centuries. Most of the most populous cities, such as Bogotá, are located temperate conditions of the Andes. , and the VEEV strains involved have caused debilitating de·bil·i·tat·ing adj. Causing a loss of strength or energy. Debilitating Weakening, or reducing the strength of. Mentioned in: Stress Reduction neurologic disease with high fatality rates in equids (9-11). In humans, who are tangential hosts during endemic and epizootic cycles, severe febrile febrile /feb·rile/ (feb´ril) pertaining to or characterized by fever. feb·rile adj. Of, relating to, or characterized by fever; feverish. illness can become life threatening. Although <1% of infected humans die, permanent neurologic sequelae sequelae Clinical medicine The consequences of a particular condition or therapeutic intervention can occur in survivors, particularly young children (8,12,13). Serosurveys have found VEEV antibodies in many species of small mammals (14-18). However, spiny rats (Proechimys spp., family Echimyidae) and cotton rats (Sigmodon spp., family Cricetidae) have been most often implicated as principal reservoir hosts for enzootic strains, based on seroprevalence seroprevalence Immunology The proportion of a population that is seropositive–ie, has been exposed to a particular pathogen or immunogen; the seropositivity of a population is calculated as the number of individuals who produce a particular antibody divided and experimental infections demonstrating viremia adequate in titer and duration to infect enzootic mosquito vectors (19-22). Their geographic distributions are different, but overlapping: Proechimys spp. are found mainly in Panama, northern Peru, Bolivia, Paraguay, and Brazil; Sigmodon spp. are found mainly from southern North America to northern parts of Venezuela, Colombia, and Peru (23). Studies supporting the role of cotton rats as reservoir hosts for enzootic VEEV have investigated viremia and antibody responses as well as horizontal transmission in laboratory settings (19-21,24,25). Howard et al. reported illness and death in cotton rats after infection with a Texas epizootic subtype IB strain (21). The cause of death was linked more to experimental manipulation than to virus infection. Another study that examined clinical and histopathologic manifestations after infection of rats with Everglades virus (EVEV; subtype II in the VEE complex) reported that although viremia developed and the virus replicated in a wide variety of organs, only 2% died (25). The southern United States The Southern United States—commonly referred to as the American South, Dixie, or simply the South—constitutes a large distinctive region in the southeastern and south-central United States. has 12 native subspecies subspecies, also called race, a genetically distinct geographical subunit of a species. See also classification. of cotton rats (26), which differ by as much as 5% in their cytochrome b DNA sequence (27). To determine whether responses to infection vary among these geographic populations, we studied infection with 2 different subtypes of enzootic VEEV in 3 populations of cotton rats. Materials and Methods Animals Three subspecies of Sigmodon hispidus (cotton rat) were used in this study: the Harlan colony, the Texas population, and the Florida population. The Harlan colony consisted of 6-to 8-week-old female rats purchased from Harlan (Indianapolis, IN, USA) from an established colony. Because the exact geographic origin was unknown, cytochrome B mitochondrial mitochondrial pertaining to mitochondria. mitochondrial RNAs a unique set of tRNAs, mRNAs, rRNAs, transcribed from mitochondrial DNA by a mitochondrial-specific RNA polymerase, that account for about 4% of the total cell RNA that gene sequences were amplified by PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) and compared phylogenetically phy·lo·ge·net·ic adj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history: a phylogenetic classification of species. with those from cotton rats from various locations in North America (27). The sequences from the Harlan colony grouped with those of animals collected in east Texas, Louisiana, and Tennessee but were outside of the clade clade Cladus, subtype Genetics A branch of biological taxa or species that share features inherited from a common ancestor; a single phylogenetic group or line. See Inheritance, Species. from southern Florida (data not shown), which indicated that these rats originated from a nonenzootic region. (Florida is the only VEE complex alphavirus-enzootic region in the United States, aside from the Rocky Mountains, which are outside of Sigmodon distribution [8,23]). The Texas population consisted of 4-to 12-month-old wild-caught male and female S. hispidus berlandieri trapped in Galveston Island State Park Galveston Island State Park, in Galveston County, is in the City of Galveston, Texas on the west end of Galveston Island. It is a 2,013.1-acre site that was acquired in 1969 from private owners under the State Parks Bond Program and was opened in 1975. , Texas (29.27[degrees]N, 94.83[degrees]W) (25). The Florida population consisted of 3-to 21-week-old male and female cotton rats (S. hispidus spadicipygus) trapped in southern Florida (25) and used to rear F1 rats for experimental studies. Before inoculation, all rats were tested for antibodies against VEEV, EVEV, and Eastern equine encephalitis virus Eastern equine encephalomyelitis virus (EEE), commonly called sleeping sickness or "Triple E", is a zoonotic alphavirus and arbovirus present in North, Central and South America and the Caribbean. (EEEV EEEV Eastern Equine Encephalitis Virus (aka sleeping sickness) ) and acclimated for 3 days in a Biosafety Level 3 animal facility. All experiments included [greater than or equal to] 2 animals as negative controls. All studies were approved by the University of Texas Medical Branch "UTMB" redirects here. For other system schools, see University of Texas System. The University of Texas Medical Branch (UTMB) is a component of the University of Texas System located in Galveston, Texas, about 50 miles (80 km) southeast of downtown Houston. Animal Care and Use Committee. Viruses and Infections VEEV strain Co97-0054 (enzootic ID subtype), isolated in Colombia in 1997 from a sentinel hamster, and strain 68U201 (enzootic IE), isolated in Guatemala from a sentinel hamster and derived from a cDNA clone (28), were used for experimental infections. These strains were selected because they had low passage histories and represent the 2 major enzootic VEEV subtypes; strain Co97-0054 has also been used for experimental infection of spiny rats (22). Cotton rats were inoculated subcutaneously in the left footpad footpad the thick, spongy structure located on each digit, and under the metacarpal- and metatarsal-phalangeal joints, and the carpus of dogs and cats. The skin is thickened, tough, and may be hyperpigmented and the hypodermis contains large amounts of adipose tissue. or left thigh with 3-4 [log.sub.10] PFU PFU plaque-forming unit; in virology, areas of cell lysis (CPE) in monolayer cell culture, under overlay conditions, initiated by infection with a single virus particle. of virus, a dose consistent with the maximum amount of VEEV in mosquito saliva (29). To determine whether an increase in virus inoculum inoculum /in·oc·u·lum/ (-ok´u-lum) pl. inoc´ula material used in inoculation. in·oc·u·lum n. pl. could change the outcome of the disease, 4 Florida rats were also inoculated with 5-6 [log.sub.10] PFU of VEEV strain 68U201. All animals were observed for signs of illness once a day for 15 days. To determine the neurovirulence of VEEV in the Florida population, 3 rats (2 months of age) were inoculated intracranially with 3 [log.sub.10] PFU/mL of strain 68U201. Blood samples were collected 24 h after inoculation, and the rats were observed for signs of disease. Viremia Assays Blood samples were collected from the retroorbital sinus for [less than or equal to] 10 days after inoculation. Serum samples were diluted 1:10 in Eagle minimal essential medium supplemented with 20% fetal bovine serum Fetal bovine serum ( or foetal bovine serum) is serum taken from the fetuses of cows. Fetal Bovine Serum (or FBS) is the most widely used serum in the culturing of cells. In some papers the expression foetal calf serum is used. , gentamicin gentamicin /gen·ta·mi·cin/ (jen?tah-mi´sin) an aminoglycoside antibiotic complex isolated from bacteria of the genus Micromonospora, , and L-glutamine and stored at -80[degrees]C. Viremia titers were determined by plaque assay with Vero cells (30). Antibody Assays Plaque reduction (80%) neutralization neutralization, chemical reaction, according to the Arrhenius theory of acids and bases, in which a water solution of acid is mixed with a water solution of base to form a salt and water; this reaction is complete only if the resulting solution has neither acidic nor (PRNT) and hemagglutination hemagglutination /he·mag·glu·ti·na·tion/ (he?mah-gloo-ti-na´shun) agglutination of erythrocytes. he·mag·glu·ti·na·tion n. inhibition (HI) tests were performed (30). To detect specific VEEV immunoglobulin M (IgM) antibodies, an IgM-capture ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. was performed (31). Briefly, microplates were coated with anti-rat IgM, diluted 1:500 in carbonate-bicarbonate buffer pH 9.6 (Kirkegaard and Perry Laboratories, Gaithersburg, MD, USA), and incubated at 4[degrees]C for at least 16 h. Subsequently, the following were sequentially added: test serum, mouse immune ascitic as·ci·tes n. pl. ascites An abnormal accumulation of serous fluid in the abdominal cavity. [Middle English aschites, from Late Latin asc fluid prepared against VEEV antigens, anti-mouse conjugate conjugate /con·ju·gate/ (kon´jdbobr-gat) 1. paired, or equally coupled; working in unison. 2. a conjugate diameter of the pelvic inlet; used alone usually to denote the true conjugate diameter; see (Kirkegaard and Perry), and ABTS ABTS American Board of Thoracic Surgery ABTS ASCII Block Terminal Services ABTS Arbin Battery Test System ABTS Abusive Tax Shelter ABTS Advanced Business Technology Services (Edwardsville, IL) ABTS Abort Basic Link Service ABTS Abort Sequence (2,2'-azinobis (3-ethylbenzthiazoline-6-sulphonic acid])-peroxidase substrate (Kirkegaard and Perry). Test serum samples were diluted at 1:40 in 0.5% bovine serum albumin in phosphate-buffered saline at pH 7.4, and the plates were read by using a spectrophotometer spectrophotometer, instrument for measuring and comparing the intensities of common spectral lines in the spectra of two different sources of light. See photometry; spectroscope; spectrum. with a 405-nm wavelength filter. The cut-off value was calculated as the mean optical density [(OD).sub.405 nm] of negative control samples plus 3 standard deviations, or 0.200. Linear regression, the Student t test, and analysis of variance were used to analyze data. Results Clinical Responses and Survival Inoculation of the Florida rats with 3 [log.sub.10] PFU of VEEV strain 68U201 (IE) or Co97-0054 (ID) resulted in no detectable signs of illness and survival rates of 100% and 87.5%, respectively (Figure 1). One Florida rat inoculated with strain Co97-0054 died on day 10 postinoculation without exhibiting any signs of illness. These findings contrasted with the results of VEEV infections of the Texas and Harlan populations. Although the Harlan rats were inoculated with only the subtype ID strain, signs of severe illness developed in all of the Harlan and Texas rats beginning on day 5. Signs included ruffled ruf·fle 1 n. 1. A strip of frilled or closely pleated fabric used for trimming or decoration. 2. A ruff on a bird. 3. a. A ruckus or fray. b. Annoyance; vexation. 4. coats, lack of grooming, lethargy, and for many, signs of encephalitis encephalitis (ĕnsĕf'əlī`təs), general term used to describe a diffuse inflammation of the brain and spinal cord, usually of viral origin, often transmitted by mosquitoes, in contrast to a bacterial infection of the meninges (incoordination incoordination /in·co·or·di·na·tion/ (in?ko-or?di-na´shun) ataxia. in·co·or·di·na·tion n. See ataxia. and instability when walking and erratic movements of the head and limbs), dehydration (measured by lack of skin turgor turgor Pressure exerted by fluid in a cell that presses the cell membrane against the cell wall. Turgor is what makes living plant tissue rigid. Loss of turgor, resulting from the loss of water from plant cells, causes flowers and leaves to wilt. ), and anorexia. Most animals that died before day 5 postinoculation showed no prior signs of illness. The average survival time for the Texas population was 6.8 days after inoculation with the subtype ID strain and 8.2 days with the IE strain; for the Harlan colony, it was 5 days after inoculation with the subtype ID VEEV. None of the animals that survived past day 15 died. The 2 sham-inoculated and the 2 noninoculated rats survived without signs of disease. [FIGURE 1 OMITTED] Neurovirulence in Florida Cotton Rats To determine whether the absence of disease in the Florida population was due to the inability of the virus to penetrate the central nervous system, 3 rats were inoculated intracranially with 3 [log.sub.10] PFU/mL of subtype IE VEEV. Viremia titers at 24 h postinoculation were 6.3, 6.2, and 6.8 [log.sub.10] PFU/mL (mean 6.5). By day 3 postinoculation, all of these rats started showing signs of illness, including ruffling of the fur and lack of movement. By day 9 postinoculation, 1 rat was dead and the other 2 exhibited instability and difficulty in walking, uncoordinated un·co·or·di·nat·ed adj. 1. Lacking physical or mental coordination. 2. Lacking planning, method, or organization. un and erratic movements of the head and limbs, dehydration, and anorexia; these animals were euthanized because of the severity of disease. Histopathologic examination of the brains showed clear signs of encephalitis, focal meningoencephalitis meningoencephalitis /me·nin·go·en·ceph·a·li·tis/ (me-ning?go-en-sef?ah-li´tis) inflammation of the brain and meninges. toxoplasmic meningoencephalitis (Figure 2, panels A, B) and associated perivascular perivascular /peri·vas·cu·lar/ (-vas´ku-lar) near or around a vessel. perivascular around a vessel. perivascular cellulitis mononuclear mononuclear /mono·nu·cle·ar/ (-noo´kle-er) 1. having but one nucleus. 2. a cell having a single nucleus, especially a monocyte of the blood or tissues. mon·o·nu·cle·ar adj. cell infiltration (Figure 2, panel C), and neurophagia, which led to the conclusion that the cause of death was from the viral infection and not from the injection or manipulation of the animals. [FIGURE 2 OMITTED] Dose Dependence To determine whether the Florida population's apparent resistance to VEE after peripheral infection was dose-dependent, 8 additional animals were inoculated with 5 or 6 [log.sub.10] PFU (4 animals per dose). In each population, 3 (75%) of the rats survived infection (data not shown). One rat inoculated with 6 [log.sub.10] PFU of virus succumbed to disease on day 3, whereas another animal inoculated with 5 [log.sub.10] PFU of virus died on day 11, which suggests that the dose could have affected disease progression. None of the other inoculated animals showed any clinical signs of illness. Viremia Titers Viremia profiles for the Florida rats were similar after inoculation (3 [log.sub.10] PFU) with either subtype ID or IE VEEV (p>0.05). Peak viremia titers of 6.2 and 5.4 [log.sub.10] PFU/mL, respectively, occurred at 24-48 h postinoculation, then became undetectable by days 4-5 postinoculation (Figure 3). The Texas population inoculated with 3-4 [log.sub.10] PFU of subtype IE virus and 3 [log.sub.10] PFU of subtype ID VEEV had similar viremia profiles, with peak titers of 6.1 and 6.6 [log.sub.10] PFU/mL, respectively, at 24-48 h. [FIGURE 3 OMITTED] We found in the Florida population a correlation between age and peak viremia titers. Younger animals inoculated with the IE virus had higher peak titers on days 1 and 2 postinoculation than did older animals (Figure 4, Table 1). In addition, we observed a significant difference in mean viremia titers on day 2 between 3- and 8-week-old animals and on day 3 between 5- and 8-week-old animals and between 3- and 8-week-old animals (p<0.05). [FIGURE 4 OMITTED] Differences in Virus Titers among Cotton Rat Populations No differences in viremia profile were observed between the Texas and Harlan rats, for which VEEV infection with subtype ID was generally fatal (p>0.05). Viremia in the Texas and Harlan rats peaked between 24 and 48 h postinoculation, with mean titers of [approximately equal to] 6.7 [log.sub.10] PFU/mL, and was undetectable by day 8 postinoculation. In contrast, significant differences were observed in peak viremia titers between the Florida and Texas rats inoculated with either the ID or IE VEEV subtype (p<0.05). In all cases, Texas rats produced higher titers (24 h postinoculation) and had a longer duration of viremia than the Florida rats, in which no disease was apparent (Figure 3, Tables 2, 3). Similar results occurred when Florida and Harlan rats inoculated with subtype ID were compared. Antibody Responses To determine whether the difference in disease outcome in Florida versus Texas rats was due to a difference in antibody responses, serum was tested by PRNT. In the Texas population inoculated with subtype IE VEEV, low titers of neutralizing antibodies (NAb) were produced by days 5-6 postinoculation (mean titer 20), and mean titers never exceeded 40 by day 10 (Figure 5, panel A); however, detectable NAb were not produced in all animals that died. In contrast, some Florida rats inoculated with the same virus strain had detectable NAb titers by day 4, and all had detectable titers by day 6. NAb titers were significantly lower in the Texas rats on days 5, 6, and 7 (p = 0.02, 0.04, 0.04, respectively). [FIGURE 5 OMITTED] When Texas rats were inoculated with the subtype ID VEEV strain, even lower NAb titers were produced, despite the development of higher viremia titers during the later stages, compared with those inoculated with subtype IE. Peak NAb titers occurred on day 8 postinoculation (mean 25), and 2 of the surviving animals had no detectable NAb titers (<19) late during infection (day 32). In contrast, in all Florida rats, detectable NAb developed by day 4 and peaked on day 6 (mean 57), when they were significantly higher (p = 0.004). To determine the duration of the antibody response in the Florida population, we measured NAb titers in 2 rats for 7 months postinoculation. Titers peaked at 4 months and then gradually decreased to the detection limit by 7 months, when the experiment was terminated (Figure 5, panel B). Because NAb were not detected in all infected animals, serum samples were further tested by HI and IgM ELISA. All rats had detectable HI antibodies by days 5-6 postinoculation. Although the titers were relatively low (<200) on day 6, titers increased constantly over the 10 days tested; no differences in titers were noted between VEEV subtype ID or IE infections in the Texas population. As was found by PRNT, HI antibody titers were higher for the Florida population than the Texas population, and titers were higher in animals inoculated with the ID than with the IE VEEV strain (Figure 5, panel C). Because of volume limitations of daily blood collection, IgM titrations were performed only on blood samples from euthanized rats (2 rats per day per group). Both Florida and Texas populations had similar IgM titers during the first 7 days postinoculation, regardless of the virus used. Mean titers ranged from OD 0.3 on day 4 to OD 0.8 by day 7 in the Texas population and 0.5 in the Florida population (Figure 5, panel D). In summary, NAb titers were higher in Florida rats inoculated with subtypes ID and IE than in Texas rats inoculated with the same viruses. This finding suggests that these animals may have mounted a more rapid and effective immune response that protected against severe VEE infection. Discussion Reservoir Status and Potential S. hispidus, a main reservoir host of VEE complex alphaviruses, comprises >22 subspecies in North America alone (26) that differ by up to 5% in their cytochrome b mitochondrial DNA sequences (27). Because some but not all North American populations occur in regions enzootic for VEE complex alphaviruses (e.g., EVEV in Florida), we attempted to better understand the host-VEEV interactions by inoculating 3 different populations with enzootic VEEV strains. Cotton rats from the enzootic area of southern Florida (sympatric sym·pat·ric adj. Ecology Occupying the same or overlapping geographic areas without interbreeding. Used of populations of closely related species. with EVEV) responded to VEEV infection as expected: moderate viremia titers, seroconversion seroconversion /se·ro·con·ver·sion/ (-con-ver´zhun) the change of a seronegative test from negative to positive, indicating the development of antibodies in response to immunization or infection. by days 4-5 postinoculation coincident with viremia cessation, and few deaths and little detectable disease. This apparently commensal commensal /com·men·sal/ (kom-men´sil) 1. living on or within another organism, and deriving benefit without harming or benefiting the host. 2. a parasite that causes no harm to the host. relationship could reflect long-term selection for cotton rat resistance to EVEV in Florida. Although EVEV is a relatively benign virus in laboratory rodents, the ancestral form of EVEV, believed to be a subtype ID VEEV strain from Panama or South America, is more virulent (32). In contrast, rats from 2 nonenzootic locations (the Harlan and Texas populations) had dramatically different outcomes: severe disease often culminated in clinical signs of encephalitis and high mortality rates. This difference in disease and survival was more pronounced than that reported in other studies of VEEV-reservoir host interactions, some of which suggested that cotton rats die because of experimental manipulations or anesthesia rather than from a viral cause (19-21,24). Our results indicate that VEEV was the cause of death for most or all of our rats, and signs of encephalitis were consistent with those described in VEEV-infected mice or guinea pigs (8,33,34). The rats infected in previous studies had several different geographic origins (Arizona, North Carolina, Florida, and Panama). Of these, only Panama and Florida are enzootic for VEE complex alphaviruses. North Carolina is enzootic for another closely related alphavirus, EEEV, for which birds are thought to be the main reservoirs (35). These allopatric al·lo·pat·ric adj. Ecology Occurring in separate, nonoverlapping geographic areas. Often used of populations of related organisms unable to crossbreed because of geographic separation. rat populations should be reexamined to further test the hypothesis that lack of exposure to VEE complex or other alphaviruses has resulted in no selection for resistance. On the basis of previous susceptibility studies, the peak viremia titers in all infected cotton rats were sufficient to infect known enzootic vector mosquitoes (36,37). Reservoir hosts play an important role in the maintenance and spread of zoonotic viruses. They generally show little or no disease after infection with VEEV and most other zoonotic viruses, which presumably reflects long-term selection for resistance (1,2). This resistance is little studied and poorly understood, yet it might provide insight into improved treatments for arbovirus arbovirus Any of a large group of viruses that develop in arthropods (chiefly mosquitoes and ticks). The name derives from “arthropod-borne virus.” The spheroidal virus particle is encased in a fatty membrane and contains RNA; it causes no apparent harm to the infections in humans. Our findings may also have implications for VEEV ecology, especially in the event of virus introduction into a nonenzootic region, as occurred during the 1971 Texas VEEV epizootic (38,39). During such a scenario, virus-induced deaths might deplete de·plete v. 1. To use up something, such as a nutrient. 2. To empty something out, as the body of electrolytes. cotton rat populations, depending on the VEEV transmission levels and the length of the outbreak. Viremia and Immunologic Responses The differences in viremia profiles exhibited by the VEE-sympatric versus VEE-allopatric cotton rat populations could explain the different disease outcomes. Although peaks of viremia titers were similar for both subspecies, durations of viremia differed. The prolonged viremia observed in the Texas and Harlan animals may reflect a poor or delayed innate or adaptive immune response, which led to sustained viral replication and death. This could be an indirect effect of replication in lymphatic tissues leading to immunosuppression immunosuppression Suppression of immunity with drugs, usually to prevent rejection of an organ transplant. Its aim is to allow the recipient to accept the organ permanently with no unpleasant side effects. . Although peak viremia titers appeared to be age-dependent in the Florida population inoculated with the subtype IE VEEV strain, disease outcomes between age groups, which might reflect maturation of the immune system, did not differ significantly. Antibody titers in both populations of cotton rats after inoculation with either virus strain were relatively low. These findings contrast with results of a previously published study of EVEV infection of cotton rats from the same 2 geographic regions (25). In that study, both subspecies of rats survived infection, exhibited similar peak viremia titers, and had high antibody titers within 9 days postinoculation; it was suggested that the innate immune response was involved. EVEV, enzootic in South Florida, is less virulent in laboratory rodents than in most other viruses in the VEE complex, including the subtypes we used (19,40). Presumably due to this lack of virulence, Florida and Texas strains of cotton rats tested produced protective antibodies and survived EVEV infection (25). Our data from the same 2 rat populations but inoculated with more virulent stains of VEEV present a different picture. Although the innate immune response may be involved as well, antibody detection correlated with the disappearance of viremia. The capability of Florida cotton rats to produce antibodies against VEEV early may allow them to better control replication and survive. Antibodies against VEEV persist for at least 6 months in laboratory-infected cotton rats (25). The average lifespan of cotton rats in nature is estimated to be [approximately equal to]6-8 months (41). To identify protective mechanisms in the Florida population, additional studies focusing more on the innate immune responses of enzootic and nonenzootic cotton rat populations are needed. This could be approached by crossbreeding crossbreeding /cross·breed·ing/ (-bred-ing) hybridization; the mating of organisms of different strains or species. crossbreeding hybridization; the mating of organisms of different strains or species, e.g. the Texas and the Florida rats and studying the offspring. Elucidation of protective mechanisms may be useful for developing new strategies for treating human or equine infections. Acknowledgments We thank Diana Ortiz for assistance with statistical analyses, Judith Aronson for pathology expertise, Juan Olano for help with the histopathologic imaging, Robert Bradley for genetic characterization of the cotton rats, Slobodan Paessler for stimulating discussions, and Wenli Kang for technical support. This research was supported by National Institutes of Health grant AI48807. L.L.C. and P.V.A. were supported by the James McLaughlin Fellowship Fund. References (1.) Richarson BJ. 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Nipah virus outbreak in Malaysia. J Clin Virol. 2003;26:265-75. (5.) Weaver SC, Frey TK, Huang HV, Kinney RM, Rice CM, Roehrig JT, et al. Togaviridae. In: Fauquet CM, Mayo MA, Maniloff J, Desselberger U, Ball LA, editors. Virus taxonomy: the eighth report of the International Committee on the Taxonomy of Viruses. London: Elsevier/Academic Press; 2005. p. 999-1008. (6.) Kubes V, Rios FA. The causative agent of infectious equine encephalomyelitis in Venezuela. Science. 1939;90:20-1. (7.) Beck CE, Wyckoff RWG RWG Regional Working Group RWG Refugee Working Group RWG Religious Working Group RWG Requirements Working Group RWG Rights Working Group RWG Restoration Working Group (PCA) RWG Rectangular Waveguide RWG Resource Working Group . Venezuelan equine encephalomyelitis Venezuelan equine encephalomyelitis an encephalomyelitis with clinical signs similar to those of western and eastern encephalomyelitis; abbreviated VEE. See also equine viral encephalomyelitis. . Science. 1938;88:530. (8.) Weaver SC, Ferro C, Barrera R, Boshell J, Navarro JC. Venezuelan equine encephalitis Venezuelan equine encephalitis An alphavirus infection first identified in a sick horse in Venezuela in 1938, which occurs as an epizootic infection in central and northern South America; most exposed humans develop flu-like Sx; ±4%, especially adolescents, . Annu Rev Entomol. 2004;49:141-74. (9.) Walton TE, Grayson MA. Venezuelan equine encephalomyelitis. In: Monath TP. The arboviruses: epidemiology and ecology, Vol IV. Boca Raton (FL): CRC (Cyclical Redundancy Checking) An error checking technique used to ensure the accuracy of transmitting digital data. The transmitted messages are divided into predetermined lengths which, used as dividends, are divided by a fixed divisor. Press; 1988. p. 203-31. (10.) Weaver SC, Anishchenko M, Bowen R, Brault AC, Estrada-Franco JG, Fernandez Z, et al. Genetic determinants of Venezuelan equine encephalitis emergence. Arch Virol Suppl. 2004;18:43-64. (11.) Johnson KM, Martin DH. Venezuelan equine encephalitis. Adv Vet SciComp Med. 1974;18:79-116. (12.) Avilan J. Outbreaks of Venezuelan equine encephalomyelitis in Venezuela during 1962-1964. Rev Venez Sanid Asist Soc. 1966;31:787-805. (13.) Rossi AL. Rural epidemic encephalitis in Venezuela caused by a group A arbovirus (VEE). Prog Med Virol. 1967;9:176-203. (14.) Kissling RE, Chamberlain RW. Venezuelan equine encephalitis. Adv Vet Sci. 1967;11:65-84. (15.) Grayson MA, Galindo P. Epidemiologic studies of Venezuelan equine encephalitis virus in Almirante, Panama. Am J Epidemiol. 1968;88:80-96. (16.) Ubico SR, McLean RG. Serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. survey of neotropical bats in Guatemala for virus antibodies. J Wildl Dis. 1995;31:1-9. (17.) Salas RA, Garcia CZ, Liria J, Barrera R, Navarro JC, Medina G, et al. Ecological studies of enzootic Venezuelan equine encephalitis in north-central Venezuela, 1997-1998. Am J Trop Med Hyg. 2001;64:84-92. (18.) Barrera R, Ferro C, Navarro JC, Freier J, Liria J, Salas R, et al. Contrasting sylvatic sylvatic /syl·vat·ic/ (sil-vat´ik) sylvan; pertaining to, located in, or living in the woods. sylvatic found in the woods; occurring in animals of the forest. foci of Venezuelan equine encephalitis virus in northern South America. Am J Trop Med Hyg. 2002;67:324-34. (19.) Zarate ML, Scherer WF. A comparative study of virulences, plaque morphologies and antigenic characteristics of Venezuelan encephalitis virus strains. Am J Epidemiol. 1969;89:489-502. (20.) Young NA, Johnson KM, Gauld LW. Viruses of the Venezuelan equine encephalomyelitis complex. Experimental infection of Panamanian rodents. Am J Trop Med Hyg. 1969;18:290-6. (21.) Howard AT. Experimental infection and intracage transmission of Venezuelan equine encephalitis virus (subtype IB) among cotton rats, Sigmodon hispidus (Say and Ord). Am J Trop Med Hyg. 1974;23:1178-84. (22.) Carrara AS, Gonzales G, Ferro C, Tamayo M, Aronson J, Paessler S, et al. Venezuelan equine encephalitis virus infection of spiny rats. Emerg Infect Dis. 2005;11:663-9. (23.) Wilson DE, Reeder DM. Mammal species of the world Mammal Species of the World, now in its 3rd edition, is a standard reference work in zoology giving descriptions and bibliographic data for the known species of mammals, An updated Third Edition of Mammal Species of the World was published late in 2005: Wilson, D. E. . A taxonomic and geographic reference, 3rd ed. Baltimore: Johns Hopkins University Johns Hopkins University, mainly at Baltimore, Md. Johns Hopkins in 1867 had a group of his associates incorporated as the trustees of a university and a hospital, endowing each with $3.5 million. Daniel C. Press; 2005. (24.) Zarate ML, Scherer WF. Contact-spread of Venezuelan equine encephalomyelitis virus among cotton rats via urine or feces and the naso- or oropharynx oropharynx /oro·phar·ynx/ (-far´inks) the part of the pharynx between the soft palate and the upper edge of the epiglottis. o·ro·phar·ynx n. . A possible transmission cycle in nature. Am J Trop Med Hyg. 1968;17:894-9. (25.) Coffey LL, Carrara AS, Paessler S, Haynie ML, Bradley RD, Tesh RB, et al. Experimental Everglades virus infection of cotton rats (Sigmodon hispidus). Emerg Infect Dis. 2004;10:2182-8. (26.) Hall ER. The mammals of North America. Vol 2. New York: John Wiley and Sons; 1981. p. 736-40. (27.) Carroll DS, Peppers LL, Bradley RD. Molecular systematics systematics: see classification. and phylogeography of Sigmodon hispidus species group. Contribuciones Mastozoologicas en Honor de Bernado Villa; 2005. In press. (28.) Powers AM, Brault AC, Kinney RM, Weaver SC. The use of chimeric chi·mer·ic adj. 1. Relating to a chimera. 2. Composed of parts of different origin. Venezuelan equine encephalitis viruses as an approach for the molecular identification of natural virulence determinants. J Virol. 2000;74:4258-63. (29.) Smith DR, Carrara AS, Aguilar PV, Weaver SC. Evaluation of methods to assess transmission potential of Venezuelan equine encephalitis virus by mosquitoes and estimation of mosquito saliva titers. Am J Trop Med Hyg. 2005;73:33-9. (30.) Beaty BJ, Calisher CH, Shope RE. Arboviruses. In: Schmidt NJ, Emmons RW, editors. Diagnostic procedures for viral, rickettsial rickettsial /rick·ett·si·al/ (ri-ket´se-al) pertaining to or caused by rickettsiae. rick·ett·si·al adj. Relating to, or caused by a member of the genus Rickettsia. and chlamydial chlamydial pertaining to members of the family Chlamydiaceae. chlamydial abortion abortion in cows, ewes, sows and goat does caused by Chlamydophila abortus and C. pecorum. See enzootic abortion of ewes. infections, 6th ed. Washington: American Public Health Association The American Public Health Association (APHA) is Washington, D.C.-based professional organization for public health professionals in the United States. Founded in 1872 by Dr. Stephen Smith, APHA has more than 30,000 members worldwide. ; 1989. p. 797-855. (31.) Kuno G, Comez I, Gubler DJ. Detecting artificial antidengue IgM immune complexes using an enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. . Am J Trop Med Hyg. 1987;36:153-9. (32.) Powers AM, Oberste MS, Brault AC, Rico-Hesse R, Schmura SM, Smith JF, et al. Repeated emergence of epidemic/epizootic Venezuelan equine encephalitis from a single genotype of enzootic subtype ID virus. J Virol. 1997;71:6697-705. (33.) Jahrling PB, Scherer WF. Histopathology his·to·pa·thol·o·gy n. The science concerned with the cytologic and histologic structure of abnormal or diseased tissue. Histopathology The study of diseased tissues at a minute (microscopic) level. and distribution of viral antigens in hamsters infected with virulent and benign Venezuelan encephalitis viruses. Am J Pathol. 1973;72:25-38. (34.) Charles PC, Walters E, Margolis F, Johnston RE. Mechanism of neuroinvasion of Venezuelan equine encephalitis virus in the mouse. Virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression . 1995;208:662-71. (35.) Weaver SC. Eastern equine encephalitis Eastern equine encephalitis A rare, sporadic, and aggressive enzootic infection by a single-stranded RNA Togavirus that primarily affects birds Vector Ornithophilic mosquito, Culiseta melanura . In: Service MW. The encyclopedia of arthropod-transmitted infections. Wallingford (UK): CAB International; 2001. p. 151-9. (36.) Turell MJ, Barth J, Coleman RE. Potential for Central American mosquitoes to transmit epizootic and enzootic strains of Venezuelan equine encephalitis virus. J Am Mosq Control Assoc. 1999;15: 295-8. (37.) Weaver SC, Scherer WF, Taylor CA, Castello DA, Cupp EW. Laboratory vector competence of Culex (Melanoconion) cedecei for sympatric and allopatric Venezuelan equine encephalomyelitis viruses. Am J Trop Med Hyg. 1986;35:619-23. (38.) Lord RD. History and geographic distribution of Venezuelan equine encephalitis. Bull Pan Am Health Organ. 1974;8:100-10. (39.) Sudia WD, McLean RG, Newhouse VF, Johnston JG, Miller DL, Trevino H, et al. Epidemic Venezuelan equine encephalitis in North America in 1971: vertebrate field studies. Am J Epidemiol. 1975;101:36-50. (40.) Gleiser CA, Gochenour WS Jr, Berge TO, Tigertt WD. The comparative pathology of experimental Venezuelan equine encephalomyelitis infection in different animal hosts. J Infect Dis. 1962; 110:80-97. (41.) Odum E. An eleven-year history of a Sigmodon population. J Mammalogy mam·mal·o·gy n. The branch of zoology that deals with mammals. [mamma(l) + -logy.] mam . 1995;36:368-78. Address for correspondence: Scott C. Weaver, Department of Pathology, University of Texas Medical Branch, 301 University Blvd, Galveston, TX 77555-0609, USA; email: sweaver@utmb.edu Dr Carrara is a postdoctoral fellow in the Department of Pathology, University of Texas Medical Branch. Her research focuses on the interactions between reservoir rodent hosts and VEEV. Anne-Sophie Carrara,* Lark L. Coffey,* Patricia V. Aguilar,* Abelardo C. Moncayo,* Amelia P.A. Travassos Da Rosa,* Marcio R.T. Nunes, [dagger] Robert B. Tesh,* and Scott C. Weaver* * University of Texas Medical Branch, Galveston, Texas, USA; and [dagger] Evandro Chagas Institute, Belem, Brazil
Table 1. Mean viremia titers of Florida cotton rats
inoculated subcutaneously with Venezuelan equine
encephalitis virus, subtype IE *
Age, wk
Day postinfection 3 (n = 2) 5 (n = 2) 8 (n = 4)
1 6.7 6.2 5.6
2 6.2 5.4 4.5
3 4.6 5.3 2.4
4 1.9 1.9 1.9
5 1.9 1.9 1.9
6 1.9 1.9 1.9
* Titers are expressed as logo PFU/mL.; 1.9 log [sub.10]
PFU/mL is the limit of detection of the plaque assay.
Table 2. Mean viremia titers of Florida, Texas, and Harlan cotton
rats inoculated subcutaneously with Venezuelan equine encephalitis
virus, subtype ID or IE *
Cotton rat population and virus subtype
Day post- Florida, IE Florida, ID Texas, IE
infection
1 6.1 [+ or -] 0.2 5.2 [+ or -] 0.2 6.3 [+ or -] 0.2
2 5.2 [+ or -] 0.2 5.4 [+ or -] 0.1 6.4 [+ or -] 0.1
3 3.7 [+ or -] 0.4 4.1 [+ or -] 0.2 5.6 [+ or -] 0.2
4 <1.9 2.3 [+ or -] 0.2 3.8 [+ or -] 0.3
5 <1.9 <1.9 2.6 [+ or -] 0.3
6 <1.9 <1.9 2.2 [+ or -] 0.2
7 <1.9 <1.9 <1.9
8 <1.9 <1.9 <1.9
Day post- Texas, ID Harlan, ID
infection
1 6.1 [+ or -] 0.2 6.8 [+ or -] 0.9
2 6.6 [+ or -] 0.2 5.8 [+ or -] 0.9
3 6.3 [+ or -] 0.2 6.5 [+ or -] 0.5
4 5.6 [+ or -] 0.2 4.7 [+ or -] 0.8
5 5.0 [+ or -] 0.5 3.9 [+ or -] 0.1
6 3.6 [+ or -] 0.7 3.9 [+ or -] 0.2
7 <1.9 2.0 [+ or -] 0.0
8 <1.9 2.1 [+ or -] 0.3
* Titers are expressed as logo PFU/mL [+ or -] standard error, 1.9
log [sub.10] PFU/mL is the limit of detection of the plaque assay.
Table 3. Statistical comparisons (p values) among viremia titers
in Texas and Florida cotton rats inoculated with Venezuelan equine
encephalitis virus, subtype IE or ID *
Day post- Texas vs. Texas vs. Subtype Subtype
infection Florida, Florida, IE vs. IE vs.ID,
subtype IE subtype ID ID,Texas Florida
1 0.123 0.018 0.590 0.078
2 5.0 x 10 (-4) 4.69 x 10 (-5) 0.506 0.078
3 9.75 x 10 (-7) 2.72 x 10 (-6) 0.506 0.215
4 2.82 x 10 (-10) 3.66 x 10 (-8) 0.348 0.751
5 1.31 x 10 (-5) 5.71 x 10 (-5) 0.058 1
6 0.051 0.010 0.123 -
* Numbers in boldface indicate statistically significant differences
(analysis of variance).
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