Perron H, Lang A. The Human Endogenous Retrovirus Link between Genes and Environment in Multiple Sclerosis and in Multifactorial Diseases Associating Neuroinflammation. Clin Rev Allergy Immunol 2009.

Endogenous retroviruses represent about 8% of the human genome and belong to the superfamily of transposable and retrotransposable genetic elements. Altogether, these mobile genetic elements and their numerous inactivated "junk" sequences represent nearly one half of the human DNA. Nonetheless, a significant part of this "non-conventional" genome has retained potential activity. Epigenetic control is notably involved in silencing most of these genetic elements but certain environmental factors such as viruses are known to dysregulate their expression in susceptible cells. More particularly, embryonal cells with limited gene methylation are most susceptible to uncontrolled activation of these mobile genetic elements by, e.g., viral infections. In particular, certain viruses transactivate promoters from endogenous retroviral family type W (HERV-W). HERV-W RNA was first isolated in circulating viral particles (Multiple Sclerosis-associated RetroViral element, MSRV) that have been associated with the evolution and prognosis of multiple sclerosis. HERV-W elements encode a powerful immunopathogenic envelope protein (ENV) that activates a pro-inflammatory and autoimmune cascade through interaction with Toll-like receptor 4 on immune cells. This ENV protein has repeatedly been detected in MS brain lesions and may be involved in other diseases. Epigenetic factors controlling HERV-W ENV protein expression then reveal critical. This review addresses the gene-environment epigenetic interface of such HERV-W elements and its potential involvement in disease.

Perron H, Bernard C, Bertrand JB, Lang AB, Popa I, Sanhadji K, Portoukalian Endogenous retroviral genes, Herpesviruses and gender in Multiple Sclerosis. J Neurol Sci 2009.

Abstract: Unexpected findings on endogenous retroviral elements expressed in cells from patients with Multiple Sclerosis appear to open a new avenue of research, after years of research dedicated to the understanding of their biological significance in human health and disease. Human endogenous retroviral family W (HERV-W) RNA present in circulating viral particles (Multiple Sclerosis associated RetroViral element, MSRV) has been associated with the evolution and prognosis of Multiple Sclerosis. HERV-W elements encode a powerful immunopathogenic envelope protein (ENV) that activates a pro-inflammatory and autoimmune cascade through interaction with Toll-Like Receptor 4 (TLR4) on antigen-presenting cells, and triggers superantigen-like dysregulation of T-lymphocytes. HERV-W/ENV antigen has further been shown to be an upstream inducer of immunopathogenicity like that in MS and has repeatedly been detected in association with MS lesions in post-mortem brain studies. ENV protein now represents a novel target in MS, in our ongoing development of a neutralising therapeutic antibody. We here review the pieces of a puzzle, which now offer a consistent picture for Multiple Sclerosis aetiopathogenesis. Interestingly, at the gene-environment interface, this picture also includes gender-related specificities through the potential interplay with endogenous retrovirus type W copies present on the X chromosome.

Perron H, Mekaoui L, Bernard C, Veas F, Stefas I, Leboyer M: Endogenous retrovirus type W GAG and envelope protein antigenemia in serum of schizophrenic patients. Biol Psychiatry 2008, 64:1019-1023.

Abstract: BACKGROUND: Recent and independent molecular studies have shown an association between human endogenous retroviruses type "W" family (HERV-W) and schizophrenia, mostly by polymerase chain reaction studies, but none has yet addressed specific antigen detection in living patients. METHODS: Forty-nine schizophrenic patients and an equivalent number of healthy control subjects were included in the present exploratory study. The HERV-W GAG and envelope (ENV) proteins were quantified in the serum with a dedicated immunoassay set-up with specific monoclonal antibodies to either antigen. RESULTS: In schizophrenic patients, positive antigenemia for ENV was found in 23 of 49 (47%) and for GAG in 24 of 49 (49%). Only 1 of 30 (3%) for ENV and 2 of 49 (4%) for GAG were positive in blood donors (p < .01 for ENV; p < .001 for GAG). Interestingly, bioclinical data analyses revealed significant correlation between GAG or ENV antigenemia (a protein causing dysimmune inflammatory effects) and C-reactive protein (CRP) levels (a systemic inflammation biomarker). CONCLUSIONS: Frequently elevated CRP has previously been described in schizophrenic patients and has been shown to match with an evolution toward cognitive deficit and neuronal loss. Elsewhere viruses such as influenza, long-associated with risk for schizophrenia through perinatal infections, have been shown to activate HERV-W elements in human cells. We therefore discuss a relationship between environment factors long-associated with early risk, genetic factors represented by this endogenous family, the production of its pro-inflammatory ENV protein and known "inflammation-mediated" neurotoxicity, as a possible hypothesis for a pathogenic cascade in association with HERV-W. Our present results thus confirm that HERV-W studies have opened a novel avenue of research in schizophrenia.