Genetic variants and heat shock proteins: unraveling their interplay in neurodegenerative sclerosis: a comprehensive review

Abstract

Amyotrophic Lateral Sclerosis (ALS) and Multiple Sclerosis (MS) are multifactorial and progressive neurodegenerative diseases (ND), which cause a functional capacity decline. Both diseases etiology remains unclear. They may have a hereditary genetic architecture, but they can also be due to a combination of genetic and environmental factors. Heat shock proteins (HSPs) play a crucial role in protein quality control, avoiding protein dysfunction and, consequently, cell apoptosis, which are well-known pathogenic mechanisms of ND. There are studies about chaperones physiology. However, research on their pathophysiology is scarce. Especially when it comes to their associated dysfunctions with Single nucleotide variants (SNV) on HSPs in ND. Thus, this review aimed to examine the role of genetic variants in genes encoding HSPs and their contribution to the pathophysiology of these sclerosis. We performed a qualitative and descriptive literature review, searching by the indexed terms “amyotrophic lateral sclerosis,” “genetic variants,” “heat shock proteins,” “Hsp40”, “Hsp70”, Hsp90”, “DNAJC7”, “multiple sclerosis,” “neurodegenerative diseases,” “protein quality control”, and “SNV” in the PubMed/NCBI, EMBASE and SciELo databases. Results described by a qualitative synthesis of the most significant studies. Despite the existence of studies with genetic variants in HSPs in patients with ND, we realize in this review the need for more specific research on this topic to demonstrate a significance as to the responsibility for deleterious effects in the modification in genes HSPs linked to sclerosis.