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Transmission and maintenance cycle of Bartonella quintana among rhesus macaques, China.
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PMID:  23347418     Owner:  NLM     Status:  MEDLINE    
Abstract/OtherAbstract:
We detected Bartonella quintana in 48.6% of captive rhesus macaques from an animal facility in Beijing, China. Prevalence of infection increased over the period of observation. Our findings suggest that macaques may serve as reservoir hosts for B. quintana and that Pedicinus obtusus lice might act as efficient vectors.
Authors:
Hao Li; Wei Liu; Guang-Zhou Zhang; Zhao-Zeng Sun; Jie-Ying Bai; Bao-Gui Jiang; Yao-Yun Zhang; Xiao-Guang Zhao; Hong Yang; Guang Tian; Yu-Chuan Li; Lin Zeng; Michael Kosoy; Wu-Chun Cao
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Publication Detail:
Type:  Journal Article    
Journal Detail:
Title:  Emerging infectious diseases     Volume:  19     ISSN:  1080-6059     ISO Abbreviation:  Emerging Infect. Dis.     Publication Date:  2013 Feb 
Date Detail:
Created Date:  2013-01-25     Completed Date:  2013-07-01     Revised Date:  2013-07-11    
Medline Journal Info:
Nlm Unique ID:  9508155     Medline TA:  Emerg Infect Dis     Country:  United States    
Other Details:
Languages:  eng     Pagination:  297-300     Citation Subset:  IM    
Affiliation:
State Key Laboratory of Pathogen and Biosecurity—Beijing Institute of Microbiology and Epidemiology, Beijing, People’s Republic of China.
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MeSH Terms
Descriptor/Qualifier:
Animals
Animals, Laboratory / microbiology*,  parasitology
Bartonella quintana / genetics*
China / epidemiology
Cytochromes b / genetics
DNA, Bacterial / genetics
DNA, Ribosomal Spacer / genetics
Disease Vectors
Female
Genes, Bacterial
Insect Proteins / genetics
Lice Infestations / complications,  epidemiology,  veterinary*
Macaca mulatta / microbiology*,  parasitology
Male
Monkey Diseases / epidemiology,  microbiology*,  parasitology,  transmission
Multilocus Sequence Typing
Pediculus / genetics,  microbiology
Phylogeny
Prevalence
Trench Fever / epidemiology,  microbiology,  transmission,  veterinary*
Chemical
Reg. No./Substance:
0/DNA, Bacterial; 0/DNA, Ribosomal Spacer; 0/Insect Proteins; 9035-37-4/Cytochromes b
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From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine

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Journal Information
Journal ID (nlm-ta): Emerg Infect Dis
Journal ID (iso-abbrev): Emerging Infect. Dis
Journal ID (publisher-id): EID
ISSN: 1080-6040
ISSN: 1080-6059
Publisher: Centers for Disease Control and Prevention
Article Information
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Print publication date: Month: 2 Year: 2013
Volume: 19 Issue: 2
First Page: 297 Last Page: 300
PubMed Id: 23347418
ID: 3563275
Publisher Id: 12-0816
DOI: 10.3201/eid1902.120816

Transmission and Maintenance Cycle of Bartonella quintana among Rhesus Macaques, China Alternate Title:Bartonella quintana among Rhesus Macaques
Hao Li
Wei Liu
Guang-Zhou Zhang
Zhao-Zeng Sun
Jie-Ying Bai
Bao-Gui Jiang
Yao-Yun Zhang
Xiao-Guang Zhao
Hong Yang
Guang Tian
Yu-Chuan Li
Lin Zeng
Michael Kosoy
Wu-Chun Cao
Author affiliations: State Key Laboratory of Pathogen and Biosecurity—Beijing Institute of Microbiology and Epidemiology, Beijing, People’s Republic of China (H. Li, W. Liu, B.-G. Jiang, Y.-Y. Zhang, X.-G. Zhao, H. Yang, G. Tian, Y.-C. Li, W.-C. Cao);
Academy of Military Medical Sciences Laboratory Animal Center, Beijing (G.-Z. Zhang, Z.-Z. Sun, J.-Y. Bai, L. Zeng);
Centers for Disease Control and Prevention, Fort Collins, Colorado, USA (M. Kosoy)
Correspondence: Address for correspondence: Wu-Chun Cao, State Key Laboratory of Pathogen and Biosecurity, Beijing Institute of Microbiology and Epidemiology, 20 Dong-Da St, Fengtai District, Beijing 100071, People’s Republic of China; email: caowc@bmi.ac.cn

Bartonella quintana is a vector-transmitted, hemotropic, and extremely fastidious gram-negative bacterium. Infection with B. quintana has been recognized to cause a broad spectrum of disease, including trench fever, chronic bacteremia, endocarditis, and bacillary angiomatosis (14). Humans are the primary reservoir host for B. quintana, which, unlike most other Bartonella species, lacks an identified animal reservoir, although some recent reports have found B. quintana in dogs and in cynomolgus and rhesus macaques (57). Almost 60 years ago, rhesus macaques were able to be experimentally infected with B. quintana (8). However, nonhuman primates have not been shown to support long-term maintenance, multiplication, and transmission of this pathogen, all of which would be expected if these animals were to act as reservoir species. Observations of monkey ectoparasites transmitting B. quintana between nonhuman primates or infecting humans have also not been reported.


The Study

A laboratory animal surveillance program intended to screen for the presence of adventitious pathogens was performed at the Laboratory Animal Center of the Academy of Military Medical Sciences, Beijing, China. Four blood samples from 10 captive-bred rhesus macaques (Macaca mulatta) were presumed to be infected with Bartonella spp. according to Giemsa-stained smears and transmission electron microscopy (Technical Appendix Figure 1). Further PCR and sequence analysis of 3 gene targets (internal transcribed spacer [ITS], gltA, and rnpB) confirmed the existence of B. quintana in the 4 parasite-positive macaques (Technical Appendix Table 1). In addition, B. quintana was successfully isolated from the 4 monkeys by blood plating.

During the 36-day period of observation, 3 screening tests of the 10 macaques showed an increasing prevalence of B. quintana: 4 were found positive at day 1, 7 positive at day 15, and all 10 positive at day 35 (Figure 1, panel A). Close examination of the monkeys revealed no skin scratch or wound indicative of direct contact between them.

Examination for ectoparasites at the last day of observation (day 36) revealed that all 10 monkeys were infested with lice (mean 10.3 lice/monkey, range 4–28 lice). Lice from each infested monkey were combined in 2 pools. B. quintana was identified in all pools of lice by PCR selective for ITS, gltA, and rnpB. Partial Cytb sequence (660-bp) of the louse was obtained (GenBank accession no. JX070558) (Technical Appendix Table 1); phylogenetic analysis of Cytb identified the louse as a relative of lice of the genus Pedicinus (Figure 2, panel A). By means of stereomicroscopy, the louse was then identified as Pedicinus obtusus (Figure 1, panel B), a macaque-specific ectoparasite, according to morphologic criteria (9,10).

Of the 60 rhesus macaques (27 male, 33 female) housed in 5 other rooms in individual cages in the same facility, an additional 30 were found to be positive for B. quintana by PCR. B. quintana prevalence among sexually immature macaques was higher than that among sexually mature macaques, but this difference was not significant (29/54 [53.7%] vs. 1/6 [16.7%], respectively; p = 0.195). B. quintana prevalence among male macaques was similar to that among females (15/27 [55.6%] vs. 15/33 [45.5%], respectively).

Nucleotide sequences of ITS (123-bp), gltA (539-bp), and rnpB (336-bp) from all macaques and pools of lice were identical; they differed from from those of B. quintana strain Toulouse by1–3 bp . Phylogenetic markers rnpB, 16S rRNA, and 23S rRNA (11) were amplified and sequenced from the strain identified in this study (RM-11) (Technical Appendix Table 1). Phylogenetic analysis of their combined sequence alignment placed the RM-11 strain on a separate branch along with the strain of B. quintana from a cynomolgus macaque and in the same clade as strains from patients in Europe who had trench fever (strains Toulouse and Fuller) (Figure 2, panel B).

To evaluate the ability of the isolate to cause disease, we intravenously inoculated 4 Bartonella spp.–negative rhesus macaques with B. quintana isolated from a blood sample of a macaque from this study and twice passaged on agar (detailed methods described in the Technical Appendix). Bacteremia reached a peak in 1 monkey on day 7 postinoculation (160 CFU/mL), in 2 monkeys on day 14 postinoculation (290 and 240 CFU/mL), and in 1 monkey on day 42 postinoculation (240 CFU/mL). Bacteremia then dropped to below a detectable level after 15 weeks postinoculation for all monkeys (Technical Appendix Figure 2). A relapsing pattern of bacteremia was observed during the experiment. Rectal temperature, hemogram, and blood biochemistry results for the 4 monkeys remained within normal limits.

The animal facility employees who had direct contact with monkeys during cage cleaning and feeding activities were tested for B. quintana infection. Paired serum samples collected at 2 time points 3 months apart were tested for IgG against B. quintana by indirect immunofluorescence assay, as described (12). The baseline serum samples were all negative at a dilution of 1:64. Among the serum samples collected 3 months later, 3 had IgG titers of 256, 1 had a titer of 512, and 4 were negative. For all blood samples collected at the 2 time points, PCR detection, blood-smear staining, and blood culture for Bartonella spp. were negative. Analysis of questionnaires revealed that all 4 of the workers with evidence of seroconversion reported lice exposure; 2 of them were scratched or bitten by monkeys.


Conclusions

We demonstrated high prevalence of B. quintana in a colony of rhesus macaques and postulated the transmission among macaques by P. obtusus lice. Our findings suggest that macaques are susceptible to B. quintana infection and can sustain vector infection and subsequent transmission. In addition, rhesus macaques showed long-lasting chronic bacteremia without apparent clinical abnormalities after experimental inoculation, suggesting a high level of adaptation of the pathogen to macaques.

It is unknown how the macaques were initially exposed to infected lice or how the lice became infected with B. quintana. We postulate that the lice became infected with B. quintana from an infected macaque and thereafter acted as efficient vectors among the rest of the macaques in the colony. We cannot completely exclude the possibility that transmission occurred through direct contact between macaques within the colony; however, we did not observe any skin scratches or wounds on the animals.

Four workers involved with care of the macaques showed seroconversion to antigens derived from our strain. This finding may relate to exposure to the P. obtusus lice found on macaques in the animal facility; however, we cannot exclude the possibility of direct contact with these animals as the mode of Bartonella spp. transmission because information obtained from the questionnaires indicates that 2 of the 4 seropositive workers were scratched or bitten by the colony’s macaques. No clinical signs were observed from these persons, indicating an asymptomatic course of B. quintana infection, which has been frequently reported in other studies (1,13). However, we cannot exclude the possibility that bacteremia continued for an extended time in humans, because the animal care personnel were sampled only 2 times, so we might have missed bacteremia of short duration. Bacterial levels obtained after monkey inoculation was low compared with levels in the initial inoculum, a finding similar to that of a previous study (14).

In summary, our findings suggest that the macaques might serve as reservoir hosts for B. quintana and that lice might act as efficient vectors. Our data also indicate that macaques could be a source for human infection with B. quintana. Further research is needed to understand the underlying mechanism of B. quintana transmission by the P. obtusus louse.


Technical Appendix

Detailed methods of inoculation of 4 Bartonella spp.–negative rhesus macaques with isolate from captive rhesus macaques in Beijing; nucleotide sequence of primers used for PCR analysis; GenBank accession numbers of Bartonella strains used for phylogenetic analysis; analysis of thin-film blood smear and peripheral blood from rhesus macaque; and timeline of bloodstream infections of B. quintana strain RM-11 in 4 rhesus macaques.


Click here for additional data file (12-0816-Techapp-s1.pdf)


Notes

Suggested citation for this article: Li H, Liu W, Zhang G-Z, Sun Z-Z, Bai J-Y, Jiang B-G, et al. Transmission and maintenance cycle of Bartonella quintana among rhesus macaques, China. Emerg Infect Dis [Internet]. 2013 Feb [date cited]. http://dx.doi.org/10.3201/eid1902.120816

FN11These authors contributed equally to this article.

Acknowledgment

We are grateful to Ying Bai for her help with culture of B. quintana.

This study was supported by the Natural Science Foundation of China (81130086, 81222037, and 81072250), Chinese Basic Research Project (2010CB530201), and Special Fund for Health Research in the Public Interest (201202019).

Mr Li is an MD candidate in the State Key Laboratory of Pathogen and Biosecurity, Beijing Institute of Microbiology and Epidemiology. His research interests include microbiology, epidemiology, and ecology of vector-borne diseases.


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Figures

[Figure ID: F1]
Figure 1 

Monitoring surveillance of Bartonella quintana infection in macaques and identification of lice. A) Macaques were housed in linked cages (squares); dashed lines indicate wired net enabling direct contact between macaques, and solid line indicates wall that does not enable contact between macaques. +, positive result for PCR; –, negative result for PCR. B) Stereomicroscope image of a Pedicinus obtusus louse, a macaque-specific ectoparasite characterized by a slender body ≈1.0–3.0 × 0.5–1.0 mm; long, sharp claws in distal end of 6 legs of the same length; and a plurality of rows of small hairs on both sides of the abdomen. Scale bar indicates 500 μm.



[Figure ID: F2]
Figure 2 

Phylogenetic analyses of louse species and Bartonella spp. A) Phylogenetic tree of louse species based on the partial Cytb sequence (364-bp), obtained by using the neighbor-joining method with maximum composite likelihood analysis and bootstrap analysis of 1,000 replicates. Arrow indicates the Pedicinus obtusus louse identified in this study. The tree was rooted with the louse species Fahrenholzia pinnata. Numbers shown at each node indicate percentage of replicates that reproduced the topology of each clade. Scale bar indicates estimated evolutionary distance of 0.5 substitutions per position. B) Phylogenetic tree of Bartonella spp. based on the combined RNase P RNA, 16S, and 23S rRNA sequence alignment (4131-bp), obtained by using the same analytical method as described in panel A. Arrow indicates the RM-11 isolate. The tree was rooted with the louse species Agrobacterium tumefaciens. The GenBank accession numbers of Bartonella strains used for phylogenetic analysis are shown in Technical Appendix Table 2. Scale bar indicates estimated evolutionary distance of 0.01 substitutions per position.



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Keywords: Keywords: Bartonella quintana, rhesus macaques, reservoir host, lice, transmission, China, vector-borne infections, Bartonella.

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