Classification of MSH6 Variants of Uncertain Significance Using Functional Assays.

Lynch syndrome (LS) is one of the most common hereditary cancer predisposition syndromes worldwide. Individuals with LS have a high risk of developing colorectal or endometrial cancer, as well as several other cancers. LS is caused by autosomal dominant pathogenic variants in one of the DNA mismatch repair (MMR) genes MLH1, MSH2, PMS2 or MSH6, and typically include truncating variants, such as frameshift, nonsense or splicing variants. However, a significant number of missense, intronic, or silent variants, or small in-frame insertions/deletions, are detected during genetic screening of the MMR genes. The clinical effects of these variants are often more difficult to predict, and a large fraction of these variants are classified as variants of uncertain significance (VUS). It is pivotal for the clinical management of LS patients to have a clear genetic diagnosis, since patients benefit widely from screening, preventive and personal therapeutic measures. Moreover, in families where a pathogenic variant is identified, testing can be offered to family members, where non-carriers can be spared frequent surveillance, while carriers can be included in cancer surveillance programs. It is therefore important to reclassify VUSs, and, in this regard, functional assays can provide insight into the effect of a variant on the protein or mRNA level. Here, we briefly describe the disorders that are related to MMR deficiency, as well as the structure and function of MSH6. Moreover, we review the functional assays that are used to examine VUS identified in MSH6 and discuss the results obtained in relation to the ACMG/AMP PS3/BS3 criterion. We also provide a compiled list of the MSH6 variants examined by these assays. Finally, we provide a future perspective on high-throughput functional analyses with specific emphasis on the MMR genes.

Two endogenous retroviral loci appear to contribute to Multiple Sclerosis.

BACKGROUND: Two endogenous retroviral loci seem to be involved in the human disease Multiple sclerosis (MS). RESULTS: The two retroviral loci synergize in and contribute to MS (shown by ANOVA). Synergy probably means recombination or complementation of the activated viruses. Similar observations may be true for Type 1 Diabetes and Rheumatoid arthritis. In MS the genes also synergize with the immune system; this could well be a common phenomenon. CONCLUSION: We formulate various theories about the role of the viruses. Also, the concept is developing that some forms of autoimmunity should be treatable with antiretrovirals. In the case of MS, this idea is gradually gaining weight.

[Endogenous retroviruses are associated with autoimmune diseases].

Retroviruses can be transmitted in two fundamentally different ways: 1) They can be horizontally transmitted as infectious virus, or 2) they can integrate in the germ line and be transmitted to offspring and the offsprings' offspring as DNA. The latter is called endogenous viruses. The mode of transmission is called vertical. Viral variants of importance for development of disease must be more frequent among diseased persons than among healthy individuals. Multiple sclerosis, diabetes and rheumatoid arthritis are all associated with sets of endogenouos retroviruses but not the same sets. If a virus grows and this contributes to disease, one should be able to alleviate disease with antiretroviral drugs. We call for clinical trials to elucidate this issue.

Are human endogenous retroviruses triggers of autoimmune diseases? Unveiling associations of three diseases and viral loci.

Autoimmune diseases encompass a plethora of conditions in which the immune system attacks its own tissue, identifying them as foreign. Multiple factors are thought to contribute to the development of immune response to self, including differences in genotypes, hormonal milieu, and environmental factors. Viruses including human endogenous retroviruses have long been linked to the occurrence of autoimmunity, but never proven to be causative factors. Endogenous viruses are retroviral sequences embedded in the host germline DNA and transmitted vertically through successive generations in a Mendelian manner. In this study by means of genetic epidemiology, we have searched for the involvement of endogenous retroviruses in three selected autoimmune diseases: multiple sclerosis, type 1 diabetes mellitus, and rheumatoid arthritis. We found that at least one human endogenous retroviral locus was associated with each of the three diseases. Although there was a significant overlap, most loci only occurred in one of the studied disease. Remarkably, within each disease, there was a statistical interaction (synergy) between two loci. Additional synergy between retroviral loci and human lymphocyte antigens is reported for multiple sclerosis. We speculate the possibility that recombinants or mixed viral particles are formed and that the resulting viruses stimulate the innate immune system, thereby initiating the autoimmune response.

Synergy of two human endogenous retroviruses in multiple myeloma.

Multiple myeloma (MM) is a severe, incurable neoplasm of the plasma cells. In this study we have used genetic epidemiology to associate the risk of MM with endogenous retroviral loci in humans. We used SNP analysis on a Sequenom platform and statistical analysis in SPSS. Markers near two endogenous retroviral loci, HERV-Fc1 on chromosome X and HERV-K on chromosome 1, were associated with MM. Moreover, there was strong gene-gene interaction in relation to risk of MM. We take this as indirect confirmation of the association.