New variant of varicella-zoster virus. (Dispatches).In 1998, a varicella-zoster virus glycoprotein E (gE) mutant virus (VZV-MSP) was isolated from a child with chickenpox chickenpox or varicella Contagious viral disease producing itchy blisters. It usually occurs in epidemics among young children, causes a low fever, and runs a mild course, leaving patients immune. The blisters can scar if scratched. . VZV-MSP, representing a second VZV VZV Varicella-zoster virus, see there serotype, was considered a rarity. We isolated another VZV-MSP-like virus from an elderly man with herpes zoster. These gE mutant viruses may have arisen through independent mutation or may represent a distinct VZV subpopulation sub·pop·u·la·tion n. A part or subdivision of a population, especially one originating from some other population: microbial subpopulations. Noun 1. that emerged more than 50 years ago. ********** In 1998, a VZV mutant virus (VZV-MSP) was discovered in Minneapolis-St. Paul, Minnesota; the virus had a missense mutation in the preponderant pre·pon·der·ant adj. Having superior weight, force, importance, or influence. See Synonyms at dominant. pre·pon  der·ant·ly adv. surface glycoprotein called gE (1,2). The mutation in
VZV-MSP led to a lost B-cell epitope epitope: see immunity. in the gE ectodomain. We define
"mutant" as a virus with distinctive phenotypic
characteristics associated with a nucleotide polymorphism and
"variant" as a more inclusive term to include any virus with
nucleotide polymorphisms whether or not the virus has a distinguishable
associated phenotype. Many methods for differentiating VZV variants and
their application to molecular epidemiologic studies have been described
(3-8). However, no nucleotide polymorphisms, with the exception of the
gE mutation in VZV-MSP, have conclusively been linked to distinguishable
phenotypes.Before 1995, a general assumption was that only one VZV serotype was found around the world (5,9). Similarly, the published sequence of the Dumas laboratory strain was generally accepted as the standard for all strains (10,11). Whether the VZV-MSP mutant virus exhibits increased fitness is not yet known. However, the mutant virus has a recognizable phenotype consisting of accelerated cell spread in both cell culture and the SCID-hu mouse (severe combined immunodeficient mouse with a human skin implant) model of VZV pathogenesis as well as a strikingly different pattern of egress See ingress. , as documented by scanning electron microscopy (2). VZV-MSP was isolated from a child with leukemia who contracted chickenpox and was admitted to hospital for treatment with intravenous acyclovir acyclovir /acy·clo·vir/ (a-si´klo-ver) a synthetic purine nucleoside with selective activity against herpes simplex virus; used as the base or the sodium salt in the treatment of genital and mucocutaneous herpesvirus infections. . The discovery of a VZV gE variant virus was unexpected; one hypothesis is that the mutation occurred for the first time in the virus replicating in the index case and that the discovery was a serendipitous event unlikely to ever occur again. We describe the second case of a gE mutant virus found in North America. This discovery provides evidence that the gE mutant virus was unlikely to have occurred as a serendipitous chance mutation. Case Report In December 1999, a 75-year-old man from Vancouver, British Columbia, Canada, arrived at the hospital with severe zoster zoster /zos·ter/ (zos?ter) herpes zoster. zos·ter n. See shingles. zoster, See herpes zoster. lesions on his face (in division V1 of the left trigeminal trigeminal /tri·gem·i·nal/ (tri-jem´i-n'l) 1. triple. 2. pertaining to the trigeminal (fifth cranial) nerve. 3. pertaining to trigeminy. tri·gem·i·nal adj. cranial nerve). Painful postherpetic neuralgia with headaches, associated with occasional blurring of vision and lasting for 6 months, developed. The patient was treated with famciclovir (500 mg three times a day for 7 days). A swab of the facial vesicles was obtained from the patient during acute zoster before famciclovir treatment. Characteristic VZV cytopathogenic cytopathogenic /cy·to·path·o·gen·ic/ (-jen´ik) capable of producing pathologic changes in cells. cy·to·path·o·gen·ic adj. Of, relating to, or producing pathological changes in cells. effect was seen after 9 days in cell culture. Results of immunofluorescence staining, performed with a commercial kit (Meridian Diagnostics, Cincinnati, OH) by using the anti-gE monoclonal antibody (MAb 3B3), were negative. Staining with monoclonal antibody conjugates for cytomegalovirus and human herpes simplex viruses was also negative. Electron microscopy indicated the presence of enveloped virus characteristic of herpesviruses Herpesviruses A family of viruses responsible for cold sores, chicken pox, and genital herpes. Mentioned in: Skin Resurfacing . Polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is amplification and subsequent DNA sequencing confirmed the virus genome to be VZV (hereafter referred to as VZV-BC). The VZV-BC strain was then analyzed in ORF68 (encodes gE and contains the 3B3 MAb epitope) and found to have an identical nucleotide sequence to VZV-MSP (GenBank accession no. AY005330). The VZV-BC and VZV-MSP strains differed from the prototype Dumas VZV strain (GenBank accession no. X04370) in ORF68 by a single G448A nucleotide mutation (D 150N amino acid substitution) in the 3B3 epitope of gE (Table). VZV-MSP and VZV-BC were also identical in nucleotide sequence in ORF62 (IE62) and ORF37 (gH). In short, VZV-BC was closely related genetically, if not identical, to the VZV-MSP mutant virus. Conclusions VZV-MSP was the first community-acquired VZV strain shown to have a phenotype distinguishable from the traditional VZV phenotype. This case report documents the existence of a second isolate with the same gE genotype. VZV-MSP has been shown to have attributes consistent with increased virulence in the SCID-hu mouse model (2). Both VZV-MSP and VZV-BC are escape mutants (i.e., they have lost a B-cell epitope present in the prototypic Dumas virus from Holland, as well as other viruses from North America, Europe, and Asia, including the Oka varicella vaccine strain from Japan) (11). We have previously shown that the same gE epitope is involved in both complement-dependent 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 (12) as well as antibody-dependent cellular cytotoxicity (13). Considering the cell culture and animal model data for VZV-MSP and the lost B-cell epitope resulting from the D150N gE mutation, this mutation should be monitored to determine whether it plays a role in more severe cases of varicella varicella: see chicken pox. or zoster or in breakthrough varicella in previously immunized children. The origin of this variant may be the same gE mutation, occurring separately in two patients by chance. The argument favoring chance was raised after the discovery of the first gE mutant; however, we find this argument less compelling after the discovery of a second VZV strain with an identically mutated gE antigenic site, just 4 years later. Two other possibilities for its origin seem more plausible. The same gE mutation may have occurred from selective antibody pressure. In an article from the laboratory of the Nobel laureate Zinkernagel (14), the investigators showed that antibody escape variant viruses were more likely to arise in animals with deficient cellular immunity. The original VZV-MSP isolate was obtained from chickenpox in a child under treatment for leukemia, a condition known to be associated with depressed immunity. The second isolate was obtained from an elderly adult with herpes zoster, a condition that may be related to diminished immunity from aging. One of the antibody-escape glycoprotein mutant viruses described by the Zinkernagel laboratory had the identical aspartic acid to asparagine asparagine (əspâr`əjēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer participates in the biosynthesis of mammalian proteins. mutation seen in the two VZV-MSP glycoprotein variant viruses. However, mutant viruses probably would have been discovered in the immunocompromised immunocompromised /im·mu·no·com·pro·mised/ (-kom´pro-mizd) having the immune response attenuated by administration of immunosuppressive drugs, by irradiation, by malnutrition, or by certain disease processes (e.g., cancer). population. The most likely scenario is that VZV-MSP is a previously unrecognized subpopulation of VZV that has been circulating for more than 50 years in circumscribed circumscribed /cir·cum·scribed/ (serk´um-skribd) bounded or limited; confined to a limited space. cir·cum·scribed adj. Bounded by a line; limited or confined. regions of northern United States The Northern United States is a large geographic region of the United States of America. Although the region includes a considerable portion of what is often called the American Midwest, most Americans refer to the region as simply "The North". and Canada. The timeline is based on the decade when the British Columbia patient likely first contracted chickenpox as a child. The gE sequencing analyses of 30 isolates by Shankar et al. (15) did not uncover a D150N gE mutation; therefore, larger studies need to be conducted to determine the prevalence of this mutant virus in North America. We conclude that diagnosticians should be aware of the existence of VZV-MSP-like strains and the potential for falsenegative testing results with single MAb-based antigen-detection kits for VZV or other herpesviruses. Further clinical observations are needed to fully assess the biological significance of the VZV gE mutant virus.
Table. Amino acid sequences of VZV strains Dumas, MSP and BC in the 3B3
monoclonal antibody epitope (a)
Codon
150 151 152 153 154 155
Dumas D Q R Q Y G
VZV-MSP N Q R Q Y G
VZV-BC N Q R Q Y G
Codon
156 157 158 159 160 161
Dumas D V F K G D
VZV-MSP D V F K G D
VZV-BC D V F K G D
(a) VZV-BC, varicella-zoster virus found in British Columbia; VZV-MSP,
varicella-zoster virus glycoprotein E mutant virus.
References (1.) Santos RA, Padilla JA, Hatfield C, Grose C. Antigenic variation of varicella zoster virus Fc receptor gE: loss of a major B cell epitope in the ectodomain. Virology 1998;249:21-31. (2.) Santos RA, Hatfield CC, Cole NL, Padilla JA, Moffat JF, Arvin AM, et al. Varicella-zoster virus gE escape mutant VZV-MSP exhibits an accelerated cell-to-cell spread phenotype in both infected cell cultures and SCID-hu mice. Virology 2000;275:306-17. (3.) Straus SE, Hay J, Smith H, Owens J. Genome differences among varicella-zoster virus isolates. J Gen Virol 1983;64:1031-41. (4.) Gharabaghi F, Aymard M, Trotemann P, Gerdil C. A rapid and simplified micromethod for subtyping varicella-zoster virus. J Med Virol 1990;31:129-34. (5.) Kinchington PR, Turse SE. Molecular basis for a geographic variation of varicella-zoster virus recognized by a peptide antibody. Neurology 1995;45(Suppl 8):S13-4. (6.) Hawrami K, Breuer J. Analysis of United Kingdom wild-type strains of varicella-zoster virus: differentiation from the Oka vaccine strain. J Med Virol 1997;53:60-2. (7.) LaRussa P, Steinberg S, Arvin A, Dwyer D, Burgess M, Menegus M, et al. Polymerase chain reaction and restriction fragment length polymorphism restriction fragment length polymorphism n. Abbr. RFLP Intraspecies variations in the length of DNA fragments generated by the action of restriction enzymes and caused by mutations that alter the sites at which these enzymes act, changing analysis of varicella-zoster virus isolates from the United States and other parts of the world. J Infect Dis 1998;178 (Suppl 1):S64-6. (8.) Loparev VN, Argaw T, Krause PR, Takayama M, Schmid DS. Improved identification and differentiation of varicella-zoster virus wild-type strains and an attenuated Attenuated Alive but weakened; an attenuated microorganism can no longer produce disease. Mentioned in: Tuberculin Skin Test attenuated having undergone a process of attenuation. varicella vaccine strain using a VZV open reading frame 62-based PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) . J Clin Microbiol 2000;38:3156-40. (9.) Rentier ren·tier n. A person who lives on income from property or investments. [French, from rente, yearly income, from Old French; see rent1. B. Introduction to the proceedings of the Second International Conference on the Varicella-zoster virus. Neurology 1995;45(Suppl 8):S8. (10.) Davison AJ, Scott JE. The complete DNA sequence of Varicella-Zoster Virus. J Gen Virol 1986;67:1759-816. (11.) Faga B, Maury W, Bruckner DA, Grose C. Identification and mapping of single nucleotide polymophisms in the varicella-zoster virus genome. Virology 2001;280:1-6. (12.) Grose C, Edwards DP, Friedrichs WE, Weigle KA, McGuire WL. Monoclonal antibodies against three major glycoproteins of varicella-zoster virus. Infect Immun 1983;40:381-8. (13.) Ito M, Ihara T, Grose C, Starr S. Human leukocytes kill varicella-zoster virus-infected fibroblasts Fibroblasts A type of cell found in connective tissue; produces collagen. Mentioned in: Skin Grafting in the presence of murine monoclonal antibodies to virus-specific glycoproteins. J Virol 1985;54:98-102. (14.) Ciurea A, Klenerman P, Hunziker L, Horvath E, Senn BM, Ochsenbein AF, et al. Viral persistence in vivo through selection of neutralizing antibody-escape variants. Proc Natl Acad Sci U S A 2000;97:2749-54. (15.) Shankar V, Fisher S, Forghani B, Vafai A. Nucleotide sequence analysis of varicella-zoster virus glycoprotein E epitope coding regions. Vaccine 2001; 19:3830-3. Graham A. Tipples, * Gwen M. Stephens, ([dagger]) Chris Sherlock, ([dagger]) Margrit Bowler, ([dagger]) Benny Hoy, ([double dagger]) Darrel Cook, ([double dagger]) and Charles Grose ([section]) * National Microbiology Laboratory The National Microbiology Laboratory (NML) is located in the Canadian Science Centre for Human and Animal Health in Winnipeg, Manitoba. This modern state-of-the-art facility houses the NML's Biological Safety Level 4 (BSL-4) containment laboratory, currently Canada's only BSL-4 , Winnipeg, Manitoba, Canada; ([dagger]) St. Paul's Hospital, Vancouver, British Columbia, Canada; ([double dagger]) British Columbia Centre for Disease Control, Vancouver, British Columbia, Canada; and ([section]) University of Iowa Not to be confused with Iowa State University. The first faculty offered instruction at the University in March 1855 to students in the Old Mechanics Building, situated where Seashore Hall is now. In September 1855, the student body numbered 124, of which, 41 were women. , Iowa City, Iowa Iowa City is a city in Johnson County, Iowa, United States. It is the principal city of the Iowa City, Iowa Metropolitan Statistical Area which encompasses Johnson and Washington counties. , USA Dr. Tipples is a research scientist and head of the Viral Exanthemata Section at the National Microbiology Laboratory, Health Canada. His program is focused on the surveillance and diagnostics of viruses causing rash illnesses (measles, rubella, varicella-zoster virus, and human herpesvirus herpesvirus, any of the family (Herpesviridae) of common DNA-containing viruses, many of which are associated with human disease. See cytomegalovirus; Epstein-Barr virus; herpes simplex; herpes zoster. 6 and 7) Address for correspondence: Graham Tipples, National Microbiology Laboratory, 1015 Arlington Street, Winnipeg, MB, R3E 3R2, Canada; fax: 204-789-5009; e-mail: graham_tipples@hc-sc.gc.ca |
|
||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion