Japanese spotted fever, South Korea.We describe the first case of Japanese spotted fever and the first isolate of spotted fever group rickettsia rickettsia (rĭkĕt`sēə), any of a group of very small microorganisms, many disease-causing, that live in vertebrates and are transmitted by bloodsucking parasitic arthropods such as fleas, lice (see louse), and ticks. from a patient in South Korea. The isolated rickettsia from the patient was identified as Rickettsia japonica japonica (jəpŏn`əkə): see quince; camellia. by analysis of the nucleotide sequences of 16S rRNA, gltA, ompA, ompB, and sca4 genes. ********** The Rickettsiaceae family comprises obligate obligate /ob·li·gate/ (ob´li-gat) pertaining to or characterized by the ability to survive only in a particular environment or to assume only a particular role, as an obligate anaerobe. intracellular bacteria and contains 2 genera: Rickettsia (typhus typhus, any of a group of infectious diseases caused by microorganisms classified between bacteria and viruses, known as rickettsias. Typhus diseases are characterized by high fever and an early onset of rash and headache. group and spotted fever group[SFG SFG StanCorp Financial Group SFG San Francisco Giants (baseball team) SFG Special Forces Group SFG Sum Frequency Generation SFG Square Foot Gardening SFG Symmetrical Field Geometry (JBL speaker technology) ]) and Orientia. Scrub typhus caused by O. tsutsugamushi is the most prevalent rickettsiosis rickettsiosis /rick·ett·si·o·sis/ (ri-ket?se-o´sis) infection with rickettsiae. rick·ett·si·o·sis n. Infection with Rickettsia bacteria. in South Korea (1). SFG rickettsiae were first demonstrated to exist in South Korea by the isolation of Rickettsia akari from the Korean vole vole, name for a large number of mouselike rodents, related to the lemmings. Most range in length from 3 1-2 to 7 in. (9–18 cm) and have rounded bodies with gray or brown coats, blunt muzzles, small ears concealed in the long fur, and short tails. in 1957 (2). However, not a single case of rickettsialpox or other SFG rickettsiosis has been documented in South Korea. Recently, evidence for the existence of SFG rickettsiosis has been provided by serologic survey and 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. detection in South Korea (3-5). Moreover, SFG rickettsiae displaying homology with R. japonica and R. rickettsii were detected in Haemaphysalis ticks by 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 analysis of the citrate synthase (gltA) gene, 16S rRNA, and ompA genes (6). However, no human cases of SFG rickettsiosis have been reported, and no SFG strain has been isolated from a person so far. In this report, we present the first documentation of Japanese spotted fever in South Korea and isolation of R. japonica. To our knowledge, this is the first report of an SFG rickettsia isolated from a patient in South Korea. Case Report A 65-year-old farmer was admitted to a hospital in Incheon, South Korea, on July 9, 2004; he had experienced fever, back pain, and myalgia for 5 days before admission. He lived in Mueui Island, [approximately equals] 20 km east of Incheon. On physical examination, he had fever of 38.6 [degrees]C, cervical and axillary lymphadenopathies, and a maculopapular rash. An eschar eschar /es·char/ (es´kahr) 1. a slough produced by a thermal burn, by a corrosive application, or by gangrene. 2. tache noire. es·char n. , which was smaller and more shallow than those of scrub typhus, was noticed on the chest wall (Figure 1). Laboratory studies showed a hemoglobin level of 7.7 mmol/L, a leukocyte count of 8 x [10.sup.9]/L, and a platelet count of 87 x [10.sup.9]/L. The patient was treated with oral doxycycline doxycycline /doxy·cy·cline/ (dok?se-si´klen) a semisynthetic broad-spectrum tetracycline antibiotic, active against a wide range of gram-positive and gram-negative organisms; used also as d. calcium and d. hyclate. (200 mg/day), but the fever persisted during the treatment. On the third hospital day, petechiae Petechiae Tiny purple or red spots on the skin associated with endocarditis, resulting from hemorrhages under the skin's surface. Mentioned in: Endocarditis, Hantavirus Infections, Hemorrhagic Fevers, Idiopathic Thrombocytopenic Purpura developed on the trunk and extremities, including palms and soles (Figure 1). The leukocyte count increased to 11.2 x [10.sup.9]/L, and the platelet count decreased further to 32 x [10.sup.9]/L. He also showed confusion, irritability, and radiographic radiographic (rā´dēōgraf´ik), adj relating to the process of radiography, the finished product, or its use. evidence of interstitial pneumonitis pneumonitis /pneu·mo·ni·tis/ (noo?mo-ni´tis) inflammation of the lung; see also pneumonia. hypersensitivity pneumonitis . The patient was then given azithromycin (500 mg/day intravenously) instead of oral doxycycline because of the possibility that he was infected with doxycycline-resistant O. tsutsugamushi. His fever resolved during next 5 days and he was discharged. [FIGURE 1 OMITTED] The serum samples were tested for antibody against O. tsutsugamushi (Boryong), R. typhi (Wilmington), and the isolated strain (Inha1) by using the indirect fluorescent-antibody (IFA Immunofluorescent assay (IFA) A blood test sometimes used to confirm ELISA results instead of using the Western blotting. In an IFA test, HIV antigen is mixed with a fluorescent compound and then with a sample of the patient's blood. ) test. The serum specimen taken on the day of admission was negative for antibodies against all Rickettsia spp. by the IFA test. The serum sample taken after 18 days was sent to the national reference laboratory (Division of Rickettsial Diseases, Department of Bacteriology bacteriology Study of bacteria. Modern understanding of bacterial forms dates from Ferdinand Cohn's classifications. Other researchers, such as Louis Pasteur, established the connection between bacteria and fermentation and disease. , National Institute of Health, Seoul, Republic of Korea) and was reported to be positive against R. japonica with a titer of 1,024. The convalescent-phase serum sample, taken on the 30th day after admission, was positive for antibodies against the isolated strain (Inha1) with a titer of 5,120. To isolate the pathogen, a few drops of blood taken on the day of admission were added directly to the monolayer mon·o·lay·er n. 1. A film or layer one molecule thick formed at the interface between water and either oil or air by a substance such as a partially esterified fatty acid that contains both hydrophobic and hydrophilic groups in the same cultures of ECV ECV External Cephalic Version ECV Enhanced Call Verification (ADT Alarm Services) ECV Extracellular Volume ECV Expanded Capacity Vehicle ECV Electrical Cardioversion ECV Expected Commercial Value ECV Essential Climate Variable 304 cells, a spontaneously transformed cell line derived from human umbilical vein endothelial cells (obtained from S.Y. Kim) (7). After incubation for 24 h, monolayers of ECV304 were maintained in M199 medium containing 10% fetal calf serum and observed daily with an inverted microscope. The infected cells exhibited few cytopathologic changes, displaying only a few rounded cells. On day 28, IFA staining was done by using the convalescent-phase serum of the patient to visualize the rickettsiae. Many intracellular bacteria were observed inside the cells; they were not seen in the staining with control serum. From these results, we tentatively identified our isolated bacterium (strain Inha1), as a member of SFG rickettsiae. Amplification and sequencing of the 16S rRNA, gltA, ompA, ompB, and sca4 genes were as described by Lee et al. (6). Sequences were aligned by using the multiple-alignment algorithm in the MegAlign software package (Windows version 3.12e; DNASTAR, Madison, WI, USA), and phylogenetic trees were constructed by the neighbor-joining method with the MEGA program (8). Sequences were compared to the sequences with those of 16 reference strains of SFG rickettsiae (9-11). The nucleotide sequence (AY743328) of the 16S rRNA gene was identical to that of R. japonica YH. Inha1 demonstrated 16S rRNA sequence similarities of 95.9%-99.7% to the other strains of SFG rickettsiae. In the phylogenetic tree, Inha1 formed a cluster with R. japonica YH, separate from the other strains of SFG rickettsiae (Figure 2). The nucleotide sequence (AY743327) of the gltA gene of Inha1 showed a high similarity (99.8%) with that of R. japonica YH. The sequence similarities of Inha1 to the other strains of SFG rickettsiae were 93.6%-99.1%. The nucleotide sequence of the ompA, ompB, and sca4 of Inha1 strain also showed a high similarity to R. japonica YH and the sequence similarities to R. japonica YH were 100, 99.9, and 99.9%, respectively. Conclusions To identify the isolate at species level, we determined the sequence of 5 genes that have been used for the phylogenetic classification of rickettsiae (9-14). The sequences are identical or highly homologous to those of R. japonica. Although the sequence similarity of the gltA gene of Inha1 strain to R. japonica YH was 99.8%, the other 4 genes show sufficient similarity to fulfill the criteria suggested by Fournier et al. (9). R. japonica was first isolated in Japan from human patients and ticks (15). The isolation of R. japonica in South Korea is not surprising because of the geographic proximity of South Korea to Japan. Furthermore, among 4 SFG rickettsiae detected in Korean ticks, 3 strains were highly homologous to R. japonica (6). Therefore, R. japonica may be the most dominant SFG rickettsiae distributed in South Korea, and the geographic distribution of R. japonica may be more widespread than previously known. However, other SFG rickettsiae, including R. sibirica, may be present in northeastern Asia. To clarify this issue, more strains of SFG rickettsiae must be isolated from other locations within Korea. This work was supported by a grant from Korea Center for Disease Control and Prevention Noun 1. Center for Disease Control and Prevention - a federal agency in the Department of Health and Human Services; located in Atlanta; investigates and diagnoses and tries to control or prevent diseases (especially new and unusual diseases) CDC in 2005. References (1.) Seong SY, Choi MS, Kim IS. Orientia tsutsugamushi infection: overview and immune responses. Microbes Infect. 2001;3:11-21. (2.) Jackson EB, Danauskas JX, Coale MC, Smadel JE. Recovery of Rickettsia akari from the Korean vole Microtus fortis pelliceus. Am J Hyg. 1957;66:301-8. (3.) Lee KR, Baek LJ, Song KJ, Woo KD, Lee YJ, Lee HW. Seroepidemiologic study of hemorrhagic fever with renal syndrome hemorrhagic fever with renal syndrome n. See epidemic hemorrhagic fever. , scrub typhus, murine typhus, spotted fever and leptospirosis leptospirosis (lĕp'təspīrō`sĭs), febrile disease caused by bacteria of the genus Leptospirae. The disease occurs in dogs, cattle, pigs, sheep, goats, and horses and is transmissible to humans. in Korea, 1991. Korean University Medical Journal. 1994;31:73-88. (4.) Jang WJ, Kim JH, Choi YJ, Jung KD, Kim YG, Lee SH, et al. First serologic evidence of human spotted fever group rickettsiosis in Korea. J Clin Microbiol. 2004;42:2310-3. (5). Choi YJ, Jang WJ, Ryn JS, Lee SH, Park KH, Pail HS, et al. Spotted fever group and typhus group rickettsioses Rickettsioses Often severe infectious diseases caused by several diverse and specialized bacteria, the rickettsiae and rickettsia-like organisms. The best-known rickettsial diseases infect humans and are usually transmitted by parasitic arthropod vectors. in humans, South Korea. Emerg Infect Dis. 2005; 11:237-44. (6.) Lee JH, Park H, Jung KD, Jang WJ, Koh ES, Kang SS, et al. Identification of the spotted fever group rickettsiae detected from Haemaphysalis longicornis in Korea. Microbiol Immunol. 2003;47:301-4. (7.) Shin EY, Lee JY, Park MK, Chin YH, Jeong GB, Kim SY, et al. Overexpressed alpha3betal and constitutively activated extracellular signal-regulated kinase modulate the angiogenic properties of ECV304 cells. Mol Cells. 1999;9:138-45. (8.) Kumar S, Tamura K, Masatoshi N. MEGA: molecular evolutionary genetics analysis, version 1.01. University Park (PA): Pennsylvania State University Pennsylvania State University, main campus at University Park, State College; land-grant and state supported; coeducational; chartered 1855, opened 1859 as Farmers' High School. ; 1993. (9.) Fournier PE, Dumler JS, Greub G, Zhang J, Wu Y, Raoult D. Gene sequence-based criteria for identification of new rickettsia isolates and description of Rickettsia heilongjiangensis sp. nov. J Clin Microbiol. 2003;41:5456-65. (10.) Roux V, Raoult D. Phylogenetic analysis of the genus Rickettsia by 16S rDNA sequencing. Res Microbiol. 1995;146:385-96. (11.) Roux V, Rydkina E, Eremeeva M, Raoult D. Citrate synthase gene comparison, a new tool for phylogenetic analysis, and its application for the rickettsiae. Int J Syst Bacteriol. 1997;47:252-51. (12.) Roux V, Raoult D. Phylogenetic analysis of members of the genus Rickettsia using the gene encoding the outer-membrane protein rOmpB (ompB). Int J Syst Evol Microbiol. 2000;50:1449-55. (13.) Sekeyova Z, Roux V, Raoult D. Phylogeny of Rickettsia spp. inferred by comparing sequences of gene D, which encodes an intracytoplasmic intracytoplasmic /in·tra·cy·to·plas·mic/ (-si?to-plaz´mik) within the cytoplasm of a cell. protein. Int J Syst Evol Microbiol. 2001;51:1353-60. (14.) Fournier PE, Roux V, Raoult D. Phylogenetic analysis of spotted fever group rickettsiae by study of the outer surface protein rOmpA. Int J Syst Bacteriol. 1998;48:839-49. (15.) Mahara F. Japanese spotted fever: report of 31 cases and review of the literature. Emerg Infect Dis. 1997;3:105-11. Moon-Hyun Chung, * Seung-Hyun Lee, ([dagger]) Mi-Jeong Kim, * Jung-Hee Lee, ([dagger]) Eun-Sil Kim, * Jin-Soo Lee, * Mee-Kyung Kim, * Mi-Yeoun Park, ([double dagger]) and Jae-Seung Kang * * Inha University College of Medicine, Incheon, South Korea; ([dagger]) Konkuk University College of Medicine, Chungju; South Korea; and ([double dagger]) National Institute of Health, Seoul, South Korea Address for correspondence: Jae-Seung Kang, Department of Microbiology and Research Institute of Medical Science, Inha University College of Medicine, Incheon 400-712, South Korea; email: jaeskang@inha.ac.kr Dr Chung is a member of the Korean Society of Infectious Diseases. His primary research interests are infections by intracellular organisms, especially Rickettsia and Plasmodium falciparum. |
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