Occurrence and frequency of transmission of naturally occurring simian retroviral infections (SIV,STLV, and SRV) at the CIRMF Primate Center,Gabon

Abstract: Among the primates held at the CIRMF Primate Center, Gabon, no serological sign of SIV infection could be demonstrated in 68 cynomolgus monkeys, 60 chimpanzees, nine gorillas, and 12 sun-tailed monkeys, while seven of 102 mandrills and six of 24 vervets were infected with SIV. Six mandrills, seven vervets and ten cynomolgus monkeys exhibited a full HTLV type 1 Western blot profile. The sera of two gorillas and one chimpanzee presented with a positive but not typical HTLV Western blot profile. The sera of the gorillas lacked p24 antibodies, and the chimpanzee had a Western blot profile evocative of HTLV-II. All attempts to amplify viruses from these animals by PCR were unsuccessful. Two other chimpanzees and seven gorillas presented with indeterminate HTLV Western blot profiles. In the mandrill colony, only male animals were STLV seropositive and no sexual transmission to females was observed. SIV infection was also more frequent in male than female mandrills and sexual transmission appeared to be a rare event. No SRV infection was observed in macaques.     

Identification of a surface antigen on Loa loa microfilariae the recognition of which correlates with the amicrofilaremic state in man

Filarial infections induce a spectrum of disease in their natural hosts, and by correlating immunity found in individuals with their disease pattern, one may delineate non-pathogenic, protective mechanisms. Loa loa is causal of mild to moderate pathology, and it is unique among the human filaria in that adult worms are occasionally visible during subconjunctival migration. To study immune mechanisms controlling microfilaremia, sera from 15 subjects with amicrofilaremic occult loiasis (OL) were compared with sera from 10 subjects with microfilaremic loiasis (ML) microfilaremia, (greater than 4000/ml) for their reactions with living microfilariae (mf). An IFA was first used to detect antibodies able to bind to the surface of living L. loa mf. ML subjects either did not react (7/10) or reacted only very weakly (3/10). Highly reactive sera were found only in OL subjects; 7/15 gave very bright fluorescence, 5/15 gave moderate reactions, and 3/15 were negative. Most of these antibodies were of the IgG class. Sera from all subjects were also reacted with living mf in an antibody-dependent cellular adherence test using normal leukocytes. Sera that were strongly positive in IFA showed strong adherence and IFA-negative sera were non-reactive. To identify the Ag involved, mf were surface iodinated, detergent-extracted Ag were immunoprecipitated, and Mr was determined on SDS-PAGE. Several OL sera, all highly reactive in the above tests, precipitated a 23-kDa molecule with which all ML sea failed to react. Sera from a mandrill experimentally infected with L. loa also precipitated the 23-kDa Ag when taken post-patency. In conclusion, it appears that certain people who control L. loa microfilaremia have high levels of IgG antibodies that bind to a surface Ag of 23 kDa and are able to mediate cellular adherence.     

Simian immunodeficiency virus from mandrill (Mandrillus sphinx) SIVmnd experimentally infects human and nonhuman primate cells.

This study set out to characterize the features of experimental infection by simian immunodeficiency virus in mandrill (SIVmnd) (Mandrillus sphinx), cynomolgus macaque (Macaca fascicularis), rhesus macaque (Macaca mulatta), chimpanzee (Pan troglodytes), African green monkey (Cercopithecus pygerythrus), baboon (Papio cynocephalus) and human cells. Purified cells were exposed to a primary isolate of SIVmnd grown in the infected mandrill peripheral blood mononuclear cells, and viral p27 gag antigen was quantitated by antigen capture ELISA. Human cells have been found to be infected by SIVmnd. SIVmnd infection in cynomolgus macaque, rhesus macaque, baboon, mandrill and human cells were more effective than in vervet and chimpanzee cells. In addition, the lymphocytic cell lines SupT1, CEMx174 and Molt4 clone 8 were consistently infected by SIVmnd, whereas U937, a monocytic cell line, was not.     

Immunohistochemical distribution of leucocyte antigens in lymphoid tissues of cynomolgus monkeys (Macaca fascicularis)

Crossreactivity of antibodies to human leucocyte antigens with lymphoid tissues of cynomolgus monkeys was studied by immunohistochemistry and immunoblotting. Of a total of 54 clusters of differentiation (CD) antigens, 39 were expressed essentially with the same immunostaining patterns in the monkey as in human lymphoid tissues. By immunoblotting L26 (CD20) detected a 35 Kd molecule in the monkey lymph node. Our observations indicated that most of the CD antigens are expressed and can be studied in lymphoid tissues of cynomolgus monkeys.     

Homologs of the Brugia malayi diagnostic antigen BmR1 are present in other filarial parasites but induce different humoral immune responses

BACKGROUND: The recombinant antigen BmR1 has been extensively employed in both ELISA and immunochromatographic rapid dipstick (Brugia Rapid) formats for the specific and sensitive detection of IgG4 antibodies against the lymphatic filarial parasites Brugia malayi and Brugia timori. In sera of individuals infected with Wuchereria bancrofti the IgG4 reactivity to BmR1 is variable, and cross-reactivity of sera from individuals infected with Onchocerca volvulus or Loa loa was observed only in single cases. In order to characterize the homologs of the BmR1 antigen in W. bancrofti (Wb-BmR1), O. volvulus (Ov-BmR1) and L. loa (Ll-BmR1) the cDNA sequences were identified, the protein expressed and the antibody reactivity of patients' sera was studied. METHODS: PCR methodology was used to identify the cDNA sequences from cDNA libraries and/or genomic DNA of W. bancrofti, O. volvulus and L. loa. The clones obtained were sequenced and compared to the cDNA sequence of BmR1. Ov-BmR1 and Ll-BmR1 were expressed in E. coli and tested using an IgG4-ELISA with 262 serum samples from individuals with or without B. malayi, W. bancrofti, O. volvulus and L. loa infections or various other parasitic infections. BmR1, Ov-BmR1 and Ll-BmR1 were also tested for reactivity with the other three IgG subclasses in patients' sera. RESULTS: Wb-BmR1 was found to be identical to BmR1. Ov-BmR1 and Ll-BmR1 were found to be identical to each other and share 99.7% homology with BmR1. The pattern of IgG4 recognition of all serum samples to BmR1, Ov-BmR1 and Ll-BmR1 were identical. This included weak IgG4 reactivities demonstrated by L. loa- and O. volvulus-infected patients tested with Ov-BmR1 and Ll-BmR1 (or BmR1). With respect to reactivity to other IgG subclasses, sera from O. volvulus- and L. loa-infected patients showed positive reactions (when tested with BmR1, Ov-BmR1 or Ll-BmR1 antigens) only with IgG1. No reactivity was observed with IgG2 or with IgG3. Similarly, ELISAs to detect reactivity to other anti-filarial IgG subclasses antibodies showed that sera from individuals infected with B. malayi or W. bancrofti (active infections as well as patients with chronic disease) were positive with BmR1 only for IgG1 and were negative when tested with IgG2 and with IgG3 subclasses. CONCLUSIONS: This study demonstrates that homologs of the BmR1 antigen are present in W. bancrofti, O. volvulus and L. loa and that these antigens are highly conserved. Recognition of this antigen by patients' sera is similar with regard to IgG1, IgG2 and IgG3, but different for IgG4 antibodies. We conclude that the BmR1 antigen is suitable for detection of IgG4 antibodies in brugian filariasis. However, its homologs are not suitable for IgG4-based diagnosis of other filarial infections.     

The pathogenesis of simian varicella virus in cynomolgus monkeys.

The MLM herpesvirus is infectious for cynomolgus monkeys. The disease in this species, possibly modulated by preinoculation antibody resembles human varicella. Virus has been recovered from blood during the early incubation period, and from liver, lymph nodes, kidney, bladder and urine during the eruptive period of infection. The major target organs were skin and liver; specific pathological changes developed in both. Appropriate antibody responses, including those to Herpesvirus varicellae followed infections mounted by parenteral inoculation of cynomolgus monkeys.     

The serodiagnosis of Campylobacter infection in infant cynomolgus monkeys (Macaca fascicularis) 2 to 18 weeks old by enzyme-linked immunosorbent assay

We established the enzyme-linked immunosorbent assay (ELISA) for detecting antibodies to Campylobacter and applied it in defining the period of the primary infection of Campylobacter in infant cynomolgus monkeys (Macaca fascicularis). The antibody to Campylobacter spp. could be detected with only 0.25 mul of serum by using commercially available antigens and anti-cynomolgus monkey IgG antibody conjugated with alkaline phosphatase. The inhibition experiments using extracts of C. jejuni, C. fetus and Yersinia enterocolitica demonstrated that the established ELISA system could detect species-specific anti-C. jejuni and anti-C. fetus antibodies. The levels of antibodies to both C. jejuni and C. fetus were high in 2 weeks old infant cynomolgus monkeys, rapidly decreasing until 6 to 14 weeks of age. This result indicates that the antibodies detected in 2 week old infants were IgG antibodies of maternal origin transferred through placenta. The C. jejuni was isolated from infants when the level of maternal antibody became the lowest. Infant cynomolgus monkeys obviously developed IgG antibodies to C. jejuni within 4 weeks after infection. On the other hand, no antibody response to C. jejuni was found in two infants from which it could not be isolated throughout the observation period. As regards C. fetus infection, infants showed a poor antibody response although it was more frequently isolated than C. jejuni. In conclusion, the ELISA system established in the present study is useful for the serological diagnosis of C. jejuni infection during infancy in the cynomolgus monkey.     

Evaluation of cynomolgus (Macaca fascicularis) and rhesus (Macaca mulatta) monkeys as experimental models of acute Q fever after aerosol exposure to phase-I Coxiella burnetii

BACKGROUND AND PURPOSE: Q fever is a disease of humans. Vaccines to prevent this disease have demonstrated efficacy in rodents and must also be evaluated for efficacy in a nonhuman primate model. Preliminary to vaccine efficacy experiments, cynomolgus and rhesus monkeys were evaluated as suitable experimental models of acute Q fever. METHODS: Both species of monkeys were challenged with aerosolized 10(5) virulent phase-I Coxiella burnetii Henzerling strain, and clinical and serologic responses were determined. RESULTS: Radiographic changes were observed in seven of eight monkeys of both species; however, changes in cynomolgus monkeys tended to be more significant. Between 7 and 10 days after challenge, all rhesus monkeys and 88% of cynomolgus monkeys were bacteremic. Sequential increases in antibody responses to C. burnetii phase-I and phase-II whole cells and phase-I lipopolysaccharide were observed in both species. Although the maximal rectal temperature increase was similar in both species, duration of fever was slightly longer in rhesus monkeys. Clinical features were similar to those described in human acute Q fever patients. CONCLUSIONS: On the basis of the more pronounced radiographic changes in cynomolgus monkeys, we favor use of this species for future studies of vaccine efficacy.     

Antigenic relatedness of immunoglobulins toLegionella pneumophila serogroups 1–6 from humans and the nonhuman primateMacaca fascicularis

The purpose of this study was to determine whether cynomolgus monkey antisera toLegionella pneumophila serogroups 1–6 antigens could be used as positive controls in the indirect immunofluorescence assay (IFA) for legionellosis. Immunoelectrophoretic mobilities and Ouchterlony analyses with heavy chain-specific antisera and IFA titers with immunoglobulin class-specific conjugates were used to show antigenic relatedness of immunized monkey immunoglobulins to those produced as a result of infection in humans. Identical immunoelectrophoretic precipitation patterns were obtained for human and monkey sera with antihuman gamma, mu, and alpha heavy-chain-specific antisera. Ouchterlony analyses showed precipitin bands of partial identity between human and monkey IgG, IgM, and IgA classes. IFA titers in the monkey hyperimmune antisera were >16,000 with antihuman conjugate. These data suggest that hyperimmune cynomolgus monkey antisera are suitable alternatives to human sera for IFA-positive controls.     

Comparison of experimental Rickettsia tsutsugamushi infections in silvered leaf (Presbytis cristatus) and cynomolgus (Macaca fascicularis) monkeys.

Both silvered leaf and cynomolgus monkeys were infected with the Gilliam, Karp and Kato strains of Rickettsia tsutsugamushi. The two species developed similar clinical syndromes, but the antibody responses were greater in cynomolgus monkeys. In both species of monkeys, the Gilliam strain induced more severe clinical manifestations. At 10 months post-infection, silvered leaf monkeys were immune to homologous intradermal (id) challenge. Cynomolgus monkeys, at 15 months post-infection, were relatively resistant to homologous intravenous challenge, but not to a homologous or heterologous id challenge.     

Genetic analysis and infection of SIVAGM and SIVMND

Recently, the authors determined the partial sequence of simian immunodeficiency virus (SIV) from the mandrill (SIVMND) and found SIVMND to be a new member of the HIV/SIV group, equidistant from other members, including SIVAGM. Experimentally, the African green monkey and cynomolgus monkey could be infected with SIVAGM and the cottontop tamarin with SIVMND. However, no clinical sign of an AIDS-like disease was observed in these monkeys.     

Monocyte/macrophage giant cell disease in SIV-infected cynomolgus monkeys

A non-opportunistic, generalized giant cell disease (GCD) was found in 12 out of 25 (48%) cynomolgus monkeys infected with SIVsm. Most organs were affected notably the lymph nodes (LN), spleen, gut, liver, lungs and CNS. The multinucleated GC varied considerably in cell size and in the number and cytoplasmic distribution of the nuclei. Immunohistochemically most GC expressed SIV antigens and markers of mononuclear phagocytes (CD68), CD4 and also occasionally the T-cell markers CD45RO, CD43 and CD2. Monkeys with GCD had more pronounced immunosuppression with lower CD4-cell counts, more often demonstrable SIV antigen in the blood and LN and had been infected for a longer time oeriod, as compared to monkeys without GCD.These findings show that SIV infection in cynomolgus monkeys is frequently associated with extensive formation of multinucleated GC of macrophage origin, which appears to be related to the pathogenesis of the infection and the degree of immunosuppression.     

Alloantigens expressed on activated human T cells different from HLA-A,B, C,and DR antigens

This study investigates alloantisera containing antibodies directed against antigens which are expressed on alloactivated human T lymphocytes but are absent on resting T and B cells. Among 39 defined anti-HLA-DR sera from multiparous women we found six sera giving positive reactions (more than 25 percent cytotoxicity) on in vitro alloactivated T cells, though negative reactions with resting B or T cells from the donors of either the responding or stimulating cell populations used for alloactivation. Two such sera were submitted to absorption and elution studies. Absorption of these sera with activated T cells did not remove the anti-HLA-DR activity. Furthermore, the antibodies eluted from activated T cells did not react with B cells but were positive only on activated T cells. In addition, we absorbed the sera with B cells and observed that they remained positive on activated T cells. The positive reactions do not seem to be due to either the passive acquisition of antigens from the stimulating population or to low levels of HLA-specific antibodies. As one of the sera we studied intensively gave clear positive and negative reactions on a panel of activated T lymphocytes, we believe it may recognize an antigen of an allogeneic system expressed on alloactivated human T cells.     

Blood group typing among Brazilian brown-howlers (Alouatta fusca)

An attempt was made to investigate ABO, Rh and MN blood antigens of 108 monkeys belonging to the species Alouatta fusca (brown-howlers).Data concerning ABO antigens did not reveal any positive blood sample for anti-H and anti-A₁ sera.In relation to the Rh system, anti-D, anti-c, anti-C and anti-E sera were used and a different pattern of antigen response was apparent. Positive blood samples were detected only through an indirect Coomb's test among c. 50% of the subjects examined for anti-D serum; and 100% for anti-c serum. For anti-E serum, c. 40% and for anti-C serum c. 50% were positive.The serological response for anti-M and anti-N sera was invariably negative as it was also found out amongst monkeys in the New World.Several techniques were employed to demonstrate the similarity between A and B antigens of monkeys and human erythrocytes and the results indicate the presence of a non-specific antigen in the erythrocyte and a corresponding antibody in the serum of the monkeys.Brown-howler erythrocytes were agglutinated by human serum corresponding to all four ABO blood types. Conversely, the hour types of human erythrocytes were agglutinated by serum belonging to any type of brown-howler subject.It was not possible to investigate antigens of the saliva from monkeys and on attempt to detect these antigens in kidney extract had no success.As a general picture, it was concluded that, corresponding to human ABO blood types, two systems were apparent, one including two antigens and the other just one.     

Cross-reactive antibodies to mycoplasmas found in human sera by the enzyme-linked immunosorbent assay (ELISA)

Antibodies against Mycoplasma pneumoniae in patients' sera with M. pneumoniae infection were measured by the complement fixation (CF) test and enzyme-linked immunosorbent assay (ELISA). Many patients' sera cross-reacted with heterologous mycoplasmal ELISA antigens such as M. hominis, M. hyorhinis, M. orale, M. pulmonis and M. salivarium. The sera with high CF (CF greater than or equal to 40) titers gave significantly higher ELISA values to M. hyorhinis (P less than 0.001) and M. pulmonis (P less than 0.001), which are not parasitic for humans, than those with low CF (CF less than 20) titer. Human normal immunoglobulin G (human normal IgG) containing 98% or more IgG, prepared from pooled plasma of at least 500 normal human donors, showed ELISA reactions with all mycoplasmal strains used. The nonspecific adsorption of human normal IgG on the surface of plate wells and on medium components which might contaminate mycoplasmal ELISA antigens could be disregarded. These results suggest that cross-reactive antibodies to mycoplasmas exist in human sera, and they affect the results of ELISA for serodiagnosis of M. pneumoniae infection.     

Studies on circulating gonococcal antibodies and antigens.

One hundred human sera obtained from acute gonococcal disease and 100 sera from nongonococcal diseases or healthy persons were concentrated four times and examined for the presence of circulating gonococcal antigens and antibodies by means of a counterimmunoelectrophoresis (CIE) and delayed hypersensitivity assay. Antibodies reacting with cytoplasmic gonococcal antigens were detected by CIE in 92% of sera received from patients suffering from acute gonococcal disease. Gonococcal antigens were found in the concentrated sera of 82.3% of patients on the basis of dermal reactions observed upon injections of these sera into the skin of rabbits sensitized with disrupted gonococci; 51.8% of the patients' sera gave delayed hypersensitivity reactions in rabbits sensitized with cytoplasmic antigens of N. gonorrhoeae. Control sera from healthy people and those with non-gonococcal diseases did not react with any of the preparations tested.     

A survey for a trypanocidal factor in primate sera

The sera of 21 different species of primates were surveyed for the presence of a trypanocidal factor to a monomorphic human serum-sensitive clone of Trypanosoma brucei gambiense (T.b.g.); human, gorilla, baboon (2 species), and the mandrill were found to contain this factor. The factor in all the sera is in the high density lipoprotein (HDL) fraction, and has similar modes of biological action. It has been shown that the human and gorilla trypanocidal factor share cross-reactive antigenic epitopes, but do not share similar cross-reactive epitopes with the baboon and mandrill factor. There was no relationship between the presence or absence of this factor and the primate's position on the phylogenetic tree. In addition, there was also no obvious correlation between the animals' preferred diet, and the presence or absence of trypanocidal activity. The evidence to date suggests that only African ground-dwelling primates that live in tsetse endemic areas contain the trypanocidal factor. It is assumed that this factor is involved in resistance of these primates to T.b.b. We believe that the host has developed trypanocidal substances as a result of selective evolutionary pressure by the African trypanosomes.     

A Survey for a Trypanocidal Factor in Primate Sera

ABSTRACT. The sera of 21 different species of primates were surveyed for the presence of a trypanocidal factor to a monomorphic human serum-sensitive clone of Trypanosoma brucei gambiense (T.b.g.) ; human, gorilla, baboon (2 species), and the mandrill were found to contain this factor. The factor in all the sera is in the high density lipoprotein (HDL) fraction, and has similar modes of biological action. It has been shown that the human and gorilla trypanocidal factor share cross-reactive antigenic epitopes, but do not share similar cross-reactive epitopes with the baboon and mandrill factor. There was no relationship between the presence or absence of this factor and the primate's position on the phylogenetic tree. In addition, there was also no obvious correlation between the animals'preferred diet, and the presence or absence of trypanocidal activity. The evidence to date suggests that only African ground-dwelling primates that live in tsetse endemic areas contain the trypanocidal factor. It is assumed that this factor is involved in resistance of these primates to T.b.b. We believe that the host has developed trypanocidal substances as a result of selective evolutionary pressure by the African trypanosomes.     

Experimental group A rotaviral infection in cynomolgus monkeys raised on formula diet

Rotaviral infections in cynomolgus monkeys (Macaca fasicularis) were studied to ascertain its suitability as a model of infection and diarrhea caused by group A human rotaviruses. Formula-fed monkeys were used as they could be observed closely. Experimental rotaviral infection of cynomolgus monkeys was age-dependent; only young monkeys were readily infected. Formula-fed newborns were readily infected with cell-culture-adapted human (WA) and simian (SA11) viruses and with a rotavirus from a human fecal specimen. However, diarrhea was detected only in very young animals. A number of rotaviral shedding patterns as a function of time were observed. Although there was no typical viral shedding pattern which represented exclusive association of viral infection with diarrhea, the initial level of viral excretion and the maximum level of viral shedding attained were much higher in animals with diarrhea. Seroconversion occurred in less than half of the inoculated animals. The presence of maternal rotaviral antibodies did not prevent infection or diarrhea.