Patricia Tortevoye scite author profile

Human infection by simian foamy viruses (SFV) can be acquired by persons occupationally exposed to non-human primates (NHP) or in natural settings. This study aimed at getting better knowledge on SFV transmission dynamics, risk factors for such a zoonotic infection and, searching for intra-familial dissemination and the level of peripheral blood (pro)viral loads in infected individuals. We studied 1,321 people from the general adult population (mean age 49 yrs, 640 women and 681 men) and 198 individuals, mostly men, all of whom had encountered a NHP with a resulting bite or scratch. All of these, either Pygmies (436) or Bantus (1085) live in villages in South Cameroon. A specific SFV Western blot was used and two nested PCRs (polymerase, and LTR) were done on all the positive/borderline samples by serology. In the general population, 2/1,321 (0.2%) persons were found to be infected. In the second group, 37/198 (18.6%) persons were SFV positive. They were mostly infected by apes (37/39) FV (mainly gorilla). Infection by monkey FV was less frequent (2/39). The viral origin of the amplified sequences matched with the history reported by the hunters, most of which (83%) are aged 20 to 40 years and acquired the infection during the last twenty years. The (pro)viral load in 33 individuals infected by a gorilla FV was quite low (<1 to 145 copies per 105 cells) in the peripheral blood leucocytes. Of the 30 wives and 12 children from families of FV infected persons, only one woman was seropositive in WB without subsequent viral DNA amplification. We demonstrate a high level of recent transmission of SFVs to humans in natural settings specifically following severe gorilla bites during hunting activities. The virus was found to persist over several years, with low SFV loads in infected persons. Secondary transmission remains an open question.

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Simian Foamy Virus Transmission from Apes to Humans, Rural Cameroon

Calattini

Betsem

Froment

et al. 2007

Emerg. Infect. Dis.

106

127

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Mother-to-child transmission of human T-cell-leukemia/lymphoma virus type I: Implication of high antiviral antibody titer and high proviral load in carrier mothers

et al. 1999

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In order to gain new insights into the risk factors influencing human‐T‐cell‐leukemia/lymphoma‐virus‐type‐I (HTLV‐I) mother‐to‐child transmission, a retrospective study of HTLV‐I infection among children born to HTLV‐I‐seropositive women was carried out in a highly HTLV‐I‐endemic population of African origin living in French Guyana. The study covered 81 HTLV‐I‐seropositive mothers and their 216 children aged between 18 months old and 12 years old. All plasma samples were tested for the presence of HTLV‐I antibodies by ELISA, immunofluorescence assay and Western blot. HTLV‐I provirus was detected, in the DNA extracted from peripheral‐blood mononuclear cells, by polymerase chain reaction (PCR) using primers specific for 3 different HTLV‐I genomic regions (LTR, gag and pX) and quantified by a competitive PCR assay. Out of the 216 children, 21 were found to be HTLV‐I‐seropositive, giving a crude HTLV‐I transmission rate of 9.7%, while among the 180 breast‐fed children 10.6% were HTLV‐I‐seropositive. Perfect concordance between serological and PCR results was observed, and none of the 195 HTLV‐I‐negative children was found HTLV‐I‐positive by PCR. In conditional (by family) logistic‐regression models, HTLV‐I seropositivity in children was associated with an elevated maternal anti‐HTLV‐I‐antibody titer (OR 2.2, p = 0.0013), a high maternal HTLV‐I proviral load (OR 2.6, p = 0.033) and child's gender, girls being more frequently HTLV‐I‐infected than boys: OR 3.6, p = 0.0077 in the model including maternal anti‐HTLV‐I‐antibody titer and OR 4.1, p = 0.002 in the model including the maternal HTLV‐I proviral load. Int. J. Cancer 82:832–836, 1999. © 1999 Wiley‐Liss, Inc.

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Merkel cell polyomavirus infection occurs during early childhood and is transmitted between siblings

Martel-Jantin

Pedergnana

Nicol

et al. 2013

Journal of Clinical Virology

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Merkel cell polyomavirus (MCPyV) is thought to be the etiological agent of Merkel cell carcinoma, but little is known about its distribution and modes of transmission. We conducted seroepidemiological surveys in more than 1000 individuals, from two populations from Cameroon. Overall MCPyV seroprevalence was high in both populations (>75% in adults). Data from the first population, comprising mainly children, indicated that MCPyV infections mostly occurred during early childhood, after the disappearance of specific maternal antibodies. Results from the second family-based population provided evidence for familial aggregation of MCPyV infection status. We observed significant sib-sib correlation (odds ratio=3.42 [95% CI 1.27-9.19], p=0.014), particularly for siblings close together in age, and a trend for mother-child correlation (OR=2.71 [0.86-8.44], p=0.08). Overall, our results suggest that MCPyV infection is acquired through close contact, possibly involving saliva and/or the skin, especially between young siblings and between mothers and their children.

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Genetic Determination and Linkage Mapping of Plasmodium falciparum Malaria Related Traits in Senegal

et al. 2008

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Plasmodium falciparum malaria episodes may vary considerably in their severity and clinical manifestations. There is good evidence that host genetic factors contribute to this variability. To date, most genetic studies aiming at the identification of these genes have used a case/control study design for severe malaria, exploring specific candidate genes. Here, we performed a family-based genetic study of falciparum malaria related phenotypes in two independent longitudinal survey cohorts, as a first step towards the identification of genes and mechanisms involved in the outcome of infection. We studied two Senegalese villages, Dielmo and Ndiop that differ in ethnicity, malaria transmission and endemicity. We performed genome-scan linkage analysis of several malaria-related phenotypes both during clinical attacks and asymptomatic infection. We show evidence for a strong genetic contribution to both the number of clinical falciparum malaria attacks and the asymptomatic parasite density. The asymptomatic parasite density showed linkage to chromosome 5q31 (LOD = 2.26, empirical p = 0.0014, Dielmo), confirming previous findings in other studies. Suggestive linkage values were also obtained at three additional chromosome regions: the number of clinical malaria attacks on chromosome 5p15 (LOD = 2.57, empirical p = 0.001, Dielmo) and 13q13 (LOD = 2.37, empirical p = 0.0014 Dielmo), and the maximum parasite density during asymptomatic infection on chromosome 12q21 (LOD = 3.1, empirical p<10−4, Ndiop). While regions of linkage show little overlap with genes known to be involved in severe malaria, the four regions appear to overlap with regions linked to asthma or atopy related traits, suggesting that common immune related pathways may be involved.

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A Severe Bite From a Nonhuman Primate Is a Major Risk Factor for HTLV-1 Infection in Hunters From Central Africa

Filippone

Betsem

Tortevoye

et al. 2015

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