Molecular characterization of Corynebacterium diphtheriae isolates, Russia, 1957-1987. (Dispatches).In the 1990s, the Newly Independent and Baltic States Baltic states, the countries of Estonia, Latvia, and Lithuania, bordering on the eastern coast of the Baltic Sea. Formed in 1918, they remained independent republics until their involuntary incorporation in 1940 into the USSR. They regained their independence in Sept. of the former Soviet Union experienced the largest diphtheria diphtheria (dĭfthēr`ēə), acute contagious disease caused by Corynebacterium diphtheriae (Klebs-Loffler bacillus) bacteria that have been infected by a bacteriophage. It begins as a soreness of the throat with fever. outbreak since the 1960s; it was caused by Corynebacterium diphtheriae Corynebacterium diph·the·ri·ae n. Klebs-Loeffler bacillus. Corynebacterium diphtheriae The causative agent of diphtheria, which produces a potent exotoxin Reservoir Humans Epidemiology Airborne, infected fomites, strains of a unique clonal group. To address its origin, we studied 47 clinical isolates from Russia and demonstrated that this clonal group was an integral part of the endemic reservoir that existed in Russia at least 5 years before the epidemic began. ********** In the pre-vaccine era, diphtheria was a major cause of childhood illness and death worldwide. After the diphtheria toxoid toxoid, protein toxin treated by heat or chemicals so that its poisonous property is destroyed but its capacity to stimulate the formation of toxin antibodies, or antitoxins, remains. vaccine was introduced, a decline in diphtheria cases was seen where the vaccine was used. In some areas of the Soviet Union, diphtheria vaccination started as early as the 1920s, but it was not included in the general immunization immunization: see immunity; vaccination. program for children until 1958 (1). After 1958, reported diphtheria cases declined steadily except for a small increase in incidence during the 1980s and the epidemic that started in 1990. In 1991, after the breakup of the Soviet Union, routine childhood vaccination programs were disrupted due to interruption of vaccine supplies to countries in Central Asia, the Caucasus, and the Baltic region For other uses, see Baltic (disambiguation). The Baltic region is an ambiguous term that refers to slightly different combinations of countries in the general area surrounding the Baltic Sea. . A major diphtheria epidemic began in Russia in 1990; during the next 4 years, it reached all the Newly Independent States New·ly Independent States Abbr. NIS The countries that until 1991 were constituent republics of the USSR, including Armenia, Azerbaijan, Belarus, Georgia, Kazakhstan, Kyrgyzstan, Moldova, Tajikistan, Turkmenistan, Ukraine, and Uzbekistan. and Baltic States of the former Soviet Union (FSU FSU Florida State University FSU Former Soviet Union FSU Ferris State University FSU Fayetteville State University (North Carolina) FSU Frostburg State University FSU Finance Sector Union ) (1,2). The European Regional Office of the World Health Organization (WHO) now considers this diphtheria outbreak, which resulted in more than 150,000 cases and 4,000 deaths, to be nearly under control (1). Several factors, such as an increased proportion of susceptibles in the population, migration, and a deteriorating health infrastructure, are suspected to be major catalysts for this outbreak (2). However, the role of biological factors of the causative organism is not clear. To assess the genetic diversity and structure of the bacteria and its toxin, different molecular typing methods have been used successfully as a complement to traditional characterization (3-6). Popovic et al. and de Zoysa et al. identified a particular epidemic clonal group, characterized by ribotyping, multilocus enzyme electrophoreses (MEE MEE Middle Ear Effusion MEE Multistate Essay Exam (National Conference of Bar Examiners) MEE Migration-Enhanced Epitaxy MEE Master of Electrical Engineering MEE Mise En Etat (French) ), and pulsed-field gel electrophoresis gel electrophoresis n. Electrophoresis performed in a gel composed of agarose, polyacrylamide, or starch. (PFGE PFGE Pulsed-Field Gel Electrophoresis ), associated with the appearance and spread of this outbreak (7,8). Our study focuses on the origin of this epidemic clonal group and is the first to include a limited number of archival isolates collected more than 30 years before this outbreak began. The Study A convenience sample of 47 Corynebacterium diphtheriae isolates was available for analysis from a collection of isolates obtained during 1957-1987, before the onset of the recent diphtheria outbreak. These isolates were collected from both carriers (n=37) and patients (n=10) in different regions of Russia. All isolates were kept freeze-dried at the G. N. Gabrichevsky Institute for Epidemiology and Microbiology, Moscow, Russia, and were transported on silica gel silica gel, chemical compound. It is a colloidal form of silica, and usually resembles coarse white sand. It may be prepared by partial dehydration of metasilicic acid, H2SiO3. Because it has many tiny pores, it has great adsorptive power. packages to the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. , Atlanta, Georgia, for molecular characterization. All isolates were biotyped by using the commercial API Coryne kit (Biomerieux, Lyon, France). Toxigenicity toxigenicity /tox·i·ge·nic·i·ty/ (tok?si-je-nis´i-te) the property of producing toxins. toxigenicity the capacity to produce toxins. status was determined by the Elek test, as recommended by WHO (9), and by the 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 (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ), which targeted both A and B subunits of the tox gene (10). All the strains were characterized by ribotyping as previously described (11). The hybridization hybridization /hy·brid·iza·tion/ (hi?brid-i-za´shun) 1. crossbreeding; the act or process of producing hybrids. 2. molecular hybridization 3. was done by using five oligonucleotide probes according to Regnault et al. (12). Ribotyping pattern designations were based on the scheme established by Popovic et al. (7). A difference in one band was defined as an individual ribotype (RT). MEE was carried out as previously described (7,11). The electromorphs of the same enzyme were visualized in a starch gel matrix as bands of different migration rates. Each electromorph was considered to represent a distinct allele allele (əlēl`): see genetics. allele Any one of two or more alternative forms of a gene that may occur alternatively at a given site on a chromosome. of the same enzyme. By testing 27 different enzymes, a profile of electromorphs, defining the electrophoretic type (ET) of each strain, was obtained. The genetic relatedness of ETs was illustrated as a dendrogram A dendrogram is a tree diagram frequently used to illustrate the arrangement of the clusters produced by a clustering algorithm (see cluster analysis). Dendrograms are often used in computational biology to illustrate the clustering of genes. , which was generated by the average-linkage method of clustering ETs described by Selander et al. (13). We examined 47 C. diphtheriae isolates collected in the pre-epidemic period (1957-1987) from 10 patients and 37 carriers in different areas of Russia. Thirty-nine strains were of the gravis biotype biotype /bio·type/ (bi´o-tip) 1. a group of individuals having the same genotype. 2. any of a number of strains of a species of microorganisms having differentiable physiologic characteristics. , 7 were the mitis biotype, and 1 was of the intermedius biotype. All the mitis biotype strains were toxigenic toxigenic /tox·i·gen·ic/ (tok?si-jen´ik) 1. producing or elaborating toxins. 2. derived from or containing toxins. tox·i·gen·ic adj. Producing a poison; toxicogenic. . Among the gravis biotype strains, 36 were toxigenic, and 3 were nontoxigenic. No discrepancies between the results obtained by traditional identification, the API Coryne test, or toxigenicity testing by the Elek test and PCR were detected. In the 47 isolates, 12 different RTs were identified (Figure 1). Twenty-two (47%) were of the M11e RT; all were toxigenic and of the gravis biotype. They were collected from 1957 to 1985. RT G4, characteristically seen in the recent epidemic clonal group, was identified in 6 (13%) isolates, all of which were collected from 1984 through 1987. Four isolates had two new ribotype patterns, not previously described. They were collected from 1977 through 1981. [FIGURE 1 OMITTED] Sixteen (6 isolates of RT pattern G4 and 10 isolates of different RT patterns) of the 47 isolates were analyzed by MEE; 13 different ETs were identified. Of the six isolates with the G4 patterns, four also belonged to the ET8 complex (Figure 2). An additional isolate (strain designation B533 in Table) collected in 1957 belonged to the ET8 complex but had a different RT. [FIGURE 2 OMITTED] Conclusions In the pre- and early vaccine era, diphtheria incidence was high in the Soviet Union. After the diphtheria vaccine was introduced, a decrease in incidence was seen in the 1950s. During the mid-1970s, immunization programs In the 1950s, medical breakthroughs resulted in new vaccines to combat such diseases as polio and measles. States responded by requiring mandatory immunization for schoolchildren. One result was the near eradication of diseases that had previously been crippling or fatal. resulted in control of diphtheria throughout the country. However, an increase in incidence was noted at the end of 1970 and during the 1980s, and a peak was observed in 1983. This resurgence was associated with a change in the biotype of the circulating C. diphtheriae strains from gravis, which had been dominating for several decades, to mitis (14). To allow better monitoring of the global spread of diphtheria, the WHO ribotyping database for C. diphtheriae was established at the Pasteur Institute in Paris, France. The institute demonstrated that C. diphtheriae RTs are quite diverse worldwide but remain stable over time (15). Both ribotyping and MEE have provided a significant level of differentiation and reliability and subsequently have been accepted as the standard for molecular subtyping of C. diphtheriae. Thus, we used these molecular methods to characterize our archival isolates. Twelve different RTs were found in our 47 isolates. Our data show that nine C. diphtheriae isolates from the 1950s and 1960s had an RT pattern (M11e) that was very similar to ribotype M11, which was only seen occasionally in the FSU in the 1990s. Epidemic RT G4 was seen in six toxigenic C. diphtheriae isolates collected from 1984 through 1987 in four distant regions of Russia (Moscow and Moscow region, Anapa, Smolensk, and Sverdlovsk) from both diphtheria patients and carriers; four of these isolates were also members of the ET8 complex. Our investigation of the origin of the epidemic clonal group determined that, in our strain collection, the earliest reported strain of this clonal group was identified in Smolensk in 1985, and that strains of this clonal group were simultaneously present in several geographically distant areas in Russia from 1985 through 1987. These findings suggest that the current epidemic clone was an integral part of the endemic reservoir that existed in the FSU at least 5 years before the epidemic began. Further studies that would include a large number of gravis biotype strains from throughout the Soviet Union isolated from 1980 through 1985 might unveil where and when strains of the epidemic clone were first associated with disease or carriage.
Table. Designations and characteristics of 47 Corynebacterium
diphtheriae strains collected in Russia, 1957-1987
Geographic No. Year of
Ribotype of isolation isolates isolation Biotype (a)
G4 Anapa 1 1984 G
Moscow 2 1985, 1987 G
Smolensk 1 1985 G
Sverdlovsk 2 1987 G
M1b Anapa 1 1984 M
M3 Krasnoyarsk 2 1979 M
Ivanov 1 1976 M
M6 Moscow 1 1981 G
M7a Moscow 2 1972, 1973 G
M11e Moscow 13 1964-1977 G
1 1964 G
Vladivostok 2 1957 G
1 1957 G
Buryatiya 1 1976 G
Groznyi 1 1985 G
Vladimir 1 1977 G
Tatarstan 1 1977 G
Omsk 1 1976 G
M11f Vladivostok 1 1957 G
Omsk 2 1977 G (e)
M11g Kirov 1 1978 G
M13a Vladivostok 1 1957 G (e)
Vladimir 1 1976 G
Krasnoyarsk 1 1979 G
M13b Moscow 1 1981 I (d)
New (c) Vladivostok 1 1981 M
Moscow 1 1977 M
1 1977 G (e)
Krasnoyarsk 1 1979 M
Geographic
Ribotype of isolation ET (b)
G4 Anapa 286
Moscow 291, 8
Smolensk 8
Sverdlovsk 8
M1b Anapa 287
M3 Krasnoyarsk 290,
ND
Ivanov ND
M6 Moscow ND
M7a Moscow ND
M11e Moscow ND
283
Vladivostok 280,
281
ND
Buryatiya 285
Groznyi ND
Vladimir ND
Tatarstan ND
Omsk ND
M11f Vladivostok ND
Omsk ND
M11g Kirov ND
M13a Vladivostok 282
Vladimir 284
Krasnoyarsk 289
M13b Moscow ND
New (c) Vladivostok ND
Moscow ND
288
Krasnoyarsk ND
(a) G, biotype gravis; M, biotype mitis; I, biotype intermedius.
(b) ET, electrophoretic type.
(c) New ribotype, pattern has not been previously observed.
(d) ND, not done.
(e) Nontoxigenic by the Elek test and polymerase chain reaction.
Dr. Skogen is working at the Department of Microbiology, University Hospital of North Norway, Tromso. His recent research interests have been in communicable diseases, especially diphtheria, in Russia. References (1.) Vitek CR, Wharton M. Diphtheria in the Former Soviet Union: re-emergence of a pandemic pandemic /pan·dem·ic/ (pan-dem´ik) 1. a widespread epidemic of a disease. 2. widely epidemic. pan·dem·ic adj. Epidemic over a wide geographic area. n. disease. Emerg Infect Dis 1998;4:539-50. (2.) Dittman S, Wharton M, Vitek C, Ciotti M, Galazka A, Guichard S, et al. Successful control of epidemic diphtheria in the states of the former union of Soviet Socialist Republics Union of Soviet Socialist Republics (USSR), Rus. Soyuz Sovetskikh Sotsialisticheskikh Respublik, former republic. It was established in 1922 and dissolved in 1991. : lessons learned. J Infect Dis 2000;181:S10-S22. (3.) Pappenheimer AM, Murphy JR. Studies on the molecular epidemiology molecular epidemiology Molecular medicine An evolving field that combines the tools of standard epidemiology–case studies, questionnaires and monitoring of exposure to external factors with the tools of molecular biology–eg, restriction endonucleases, of diphtheria. Lancet 1983;2:923-6. (4.) Bobkova MR, Komborarova SI, Lipis SV, Bobkova AF, Mazurova IK. The use of DNA fingerprint DNA fingerprint n. An individual's unique sequence of DNA base pairs. Also called genetic fingerprint. analyses for the differentiation of populations of toxigenic Corynebacterium diphtheriae. Zh Mikrobiol Epidemiol Immunobiol 1989;7:28-30. (5.) Rappuoli R, Perugini M, Ratti G. DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. element of Corynebacterium diphtheriae with properties of an insertion sequence insertion sequence n. Any of several discrete DNA sequences that repeat at various sites on a bacterial chromosome, on certain plasmids, and on bacteriophages and that can move from one site to another on the chromosome, to another plasmid in the same and usefulness for epidemiological studies. J Bacteriol 1987;169:308-12. (6.) Reacher M, Ramsay M, White J, De Zoysa A, Efstratiou A, Mann G, et al. Nontoxigenic Corynebacterium diphtheriae: an emerging pathogen emerging pathogen Public health Any pathogen that ↑ incidence of an epidemic outbreak Examples Cryptosporidium, E coli O157:H7, Hantavirus, multidrug resistant pneumococci, vancomycin-resistant enterococci. See Emergent disease. in England and Wales England and Wales are both constituent countries of the United Kingdom, that together share a single legal system: English law. Legislatively, England and Wales are treated as a single unit (see State (law)) for the conflict of laws. . Emerg Infect Dis 2000;6:640-5. (7.) Popovic T, Kombarova SY, Reeves MW, Nakao H, Mazurova IK, Wharton M, et al. Molecular epidemiology of diphtheria in Russia, 1985-1994. J Infect Dis 1996;174:1064-72. (8.) De Zoysa A, Efstratiou A, George RC, Jahkola M, Vuopio-Varkila J, Deshevoi S, et al. Molecular epidemiology of Corynebacterium diphtheriae from North-western Russia and surrounding countries studied by using ribotyping and pulsed-field gel electrophoresis. J Clin Microbiol 1995;33:1080-3. (9.) Efstratiou A, Maple PA. WHO manual for the laboratory diagnosis of diphtheria. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. : World Health Organization, 1994, no. ICP-EPI 038(C). (10.) Mikhailovich V, Melnikov V, Mazurova I, Wachsmuth JD, Wenger M, Wharton M, et al. Application of PCR for detection of toxigenic Corynebacterium diphtheriae strains isolated during the Russian diphtheria epidemic, 1990 through 1994. J Clin Microbiol 1995;33:3061-3. (11.) Popovic T, Kim C, Reiss J, Reeves M, Nakao H, Golaz A. Use of molecular subtyping to document long-term persistence of Corynebacterium diphtheriae in South Dakota. J Clin Microbiol 1999;37:1092-9. (12.) Regnault B, Grimont R, Grimont PAD. Universal ribotyping method using a chemically labelled oligunucleotide probe mixture. Res Microbiol 1997;148:649-59. (13.) Selander R, Caugant DA, Ochman H, Musser JM, Golmour MN, Whittam TS. Methods of multilocus enzyme electrophoresis for bacterial population genetics Population genetics The study of both experimental and theoretical consequences of mendelian heredity on the population level, in contradistinction to classical genetics which deals with the offspring of specified parents on the familial level. and systematics systematics: see classification. . Appl Environ Microbiol 1986;51:873-84. (14.) Markina SA, Maksimova NM, Vitec CR, Bogatyreva EY, Monisov AA. Diphtheria in the Russian Federation in the 1990s. J Infect Dis 2000;181(Suppl 1):S27-34. (15.) Grimont P, Grimont F, Collin M, Ruckly C, Martin-Delautre S, Regnault B, et al. The Corynebacterium diphtheriae ribotype database project. In: Program and abstracts of the sixth international meeting of the European Laboratory Working Group on Diphtheria. European Commission, Brussels, Belgium, 2000. Address for correspondence: Vegard Skogen, Department of Medicine, Institute of Clinical Medicine, University of Tromso, N-9037 Tromso, Norway; fax: 77 776 44650; e-mail: vegards@fagmed.uit.no Vegard Skogen, * Valentina V. Cherkasova, ([dagger]) Nina Maksimova, ([dagger]) Chung K. Marston, ([double dagger]) Haakon Sjursen, ([section]) Michael W. Reeves, ([double dagger]) Orjan Olsvik, * and Tanja Popovic ([double dagger]) * University of Tromso, Norway; ([dagger]) G. N. Gabrichevsky Institute for Epidemiology and Microbiology, Moscow, Russia; ([double dagger]) Centers for Diseases Control and Prevention, Atlanta, Georgia, USA; and ([section]) University of Bergen The University of Bergen (Universitetet i Bergen) is located in Bergen, Norway. Although founded as late as 1946, academic activity had taken place at Bergen Museum as far back as 1825. The university today caters for more than 16,000 students. , Haukeland Hospital, Bergen, Norway |
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