Contrôle génétique de la réponse à l’infection par des virus oncogènes en population endémique / Pas de titre traduit

Pedergnana, Vincent

07 October 2013

La recherche de facteurs génétiques de susceptibilité aux infections virale dans des populations générales exhaustives endémiques est une approche originale en épidémiologie génétique. Nos travaux de thèse nous ont permis d’établir, dans une population endémique pour deux virus oncogènes MCPyV et HHV-8 au Cameroun et dans une population endémique pour le VHC en Egypte, plusieurs arguments forts en faveur d’une susceptibilité génétique aux infections par les virus oncogènes humains définies par la séropositivité/ séronégativité vis-à-vis du virus impliqué. Concernant l’infection par le MCPyV, dont les modes de transmission sont peu connus, nous avons mis en évidence l’existence de fortes corrélations familiales mère-enfant et entre enfants pour la séropositivité au virus, en faveur d’une transmission virale par contacts proches. Ces résultats sont similaires à ceux observés pour l’HHV-8, dans la même population, virus pour lequel la transmission par voie salivaire est l’hypothèse la plus forte. Concernant l’infection par l’HHV-8, nous avons identifié un locus majeur de prédisposition à l’infection par une analyse de ségrégation mettant un gène majeur mendélien autosomique récessif prédisposant à l’infection, suivie d’une analyse de liaison paramétrique utilisant le modèle de l’analyse de ségrégation. Concernant l’infection par le VHC, nous avons identifié par une analyse de liaison génétique un locus majeur de prédisposition à l’infection. Nous avons ensuite identifié, par une analyse d’association en génome entier sur une grande cohorte de plus de 6500 individus, trois signaux associés avec l’infection par le VHC. Par ailleurs, nous avons également réalisé une étude fine des variants du locus du gène IL28B, associés à la clairance du VHC, cohérente avec les résultats publiés au cours de nos travaux. L’identification de facteurs génétiques impliqués dans la susceptibilité aux infections virales oncogènes et aux cancers associés permettra de mieux comprendre la physiopathologie de la réponse à ces infections et les mécanismes intervenant depuis l’exposition virale jusqu’au développement de cancers. / The identification of genetic variants predisposing to viral infection in highly endemic general populations is an original approach in genetic epidemiology. Our work suggests a genetic control of the susceptibility to human oncogenic viruses infection, in a population in Cameroon in which MCPyV and HHV-8 are highly endemic and in an Egyptian population in which HCV is endemic. MCPyV is thought to be the etiological agent of Merkel cell carcinoma, but little is known about its distribution and modes of transmission. We provided evidence for familial aggregation of MCPyV infection status suggesting 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. Infection with HHV-8 has been shown to display strong familial aggregation, in countries in which HHV-8 infection is endemic. Our segregation analysis provided strong evidence for a recessive major gene conferring predisposition to HHV-8 infection. The following linkage analysis identified a single region on chromosome 3p22 significantly linked to HHV-8 infection. This study provides the first evidence that HHV-8 infection in children in endemic areas has a strong genetic basis. Concerning HCV infection, we performed a linkage analysis that mapped a major locus predisposing to HCV infection in an Egyptian cohort. We then performed a genome-wide association study in more than 6500 individuals, identifying three signals associated with HCV infection. Finally we investigated the role of several IL28B SNPs in HCV spontaneous clearance in an Egyptian population. The results confirm the major role of IL28B variants in the spontaneous clearance of HCV genotype 4 infection in an Egyptian population. The identification of genetic variants predisposing to viral infection should greatly improve our understanding of the molecular mechanisms involved in the response to these infections and may also unravel new pathways for investigation in viruses-associated diseases, such as cancer.

Epidémiologie génétique

Génétique humaine

Contrôle de l’infection

MCPyV

HHV-8

VHC

Virus oncogènes

Transmission familiale

Analyse de ségrégation

Analyse de liaison génétique

Analyse d’association

Genetic epidemiology

Human genetic

Control of infection

MCPyV

HHV-8

HCV

Oncogenic viruses

Familial transmission

Segregation analysis

Linkgae analyse

Association analysis

616.042

Identification of human papilloma virus, hepatitis B virus and human herpes virus type 8 in plasma of benign prostatic hyperplasia and prostate cancer patients in South Africa

Munzhedzi, Mukhethwa

05 1900

MSc (Microbiology) / Department of Microbiology / Background: Prostate cancer (PCA) is a major health concern in males, particularly those above 40 years old. It is the most common form of cancer in males worldwide, including South Africa. In South Africa, the rate of histologically diagnosed prostate cancer is 40 per 100 000 in whites and 14 per 100 000 in blacks, and 1 in 8 men will develop PCA in their lifetime. Several reports have suggested the association of viruses in the pathogenesis of prostate cancer. Objectives: This study was aimed at identifying Hepatitis B virus (HBV), human papilloma virus (HPV) and human herpes virus type 8 (HHV-8), implicated in other forms of cancer, in a cohort of South African patients with either PCA or benign prostatic hyperplasia (BPH); and to seek possible associations thereof. Methods: The study group comprised 187 male patients recruited from Polokwane Hospital presenting with either PCA (staged by Gleason scores) or BPH. Enzyme-linked immunosorbent assay was used to detect antibodies to HHV-8 and HPV; and to detect hepatitis B surface antigen (HBsAg) in the plasma of the study subjects. Total DNA was extracted from plasma and targeted for the identification of HBV and HHV-8 DNA by nested PCR protocols. The HBV nested PCR protocol amplifies a 336bp fragment of the overlapping surface polymerase gene of HBV. The HHV-8 nested protocol amplifies a 233bp fragment of the ORF 26 gene of HHV-8. Amplified DNA products were purified, sequenced by the Sanger protocol and phylogenetically analysed for viral genotypes. The Chi-square test was used to infer statistically significant differences in the level of detection of viruses and the stage of prostate cancer development. Results: Of the 187 participants, a seroprevalence of 4.8% (9/187, HBsAg), 5.3% (10/187, HPV IgG antibody) and 27% (33/124, HHV-8 IgG antibody) were observed. HBsAg was detected more in individuals with BPH than those without and this was statistically significant at ( 2=6.0, p< 0.05). HHV-8 DNA was detected more in individuals in the 60-79 years age range and this was statistically significant at ( 2=61.1, p< 0.05). Occult HBV infection (that is the presence of HBV DNA in the absence of HBsAg) was detected in 23/178 (12.9%) of patients. Taking into account occult HBV infection, the overall prevalence of HBV was 17.7%. HBV genotype E was more prevalent (86.7%) followed by genotype A (13.3%). HHV-8 genotypes K and R were inferred. Apparently, this is the first report on the identification of HHV-8 genotypes K and R from South Africa. Conclusion: The current study has demonstrated for the first time, the presence of genotypes K and R of HHV-8 in South Africa. This study also suggests that there is a high level of occult genotype E HBV infection. Future studies will explore the virome in prostate cancer biopsies.

HPV

HBV

HHV-8

Prostate Cancer

Benign prostatic hyperplasia

616.994630968

Prostate -- Cancer -- South Africa

Prostate -- Diagnosis -- South Africa

Prostate -- Surgery -- South Africa

Hepatitis B virus -- South Africa

Hepatitis viruses -- South Africa

Cancer in men -- South Africa