Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disorder. 20% of ALS cases are genetic, with monogenic causes identified in about 17%. The remaining 80% of cases appear to be multifactorial, and no reproducible and/or robust genetic association or environmental factor(s), internal or external, have been identified. Although the role of innate immunity has been explored and some innate immunity factors highlighted, their role as initiators, amplifiers or secondary markers of an ongoing inflammatory response is not established in ALS. As the result of our study of gene variants of cargo proteins of the HDL particle, we identified the trypanocidal blood and CSF protein, APOL1, as a promising agent affecting ALS that is also sensitive to environmental factors.APOL1 is a secreted innate immunity factor carried by the high-density lipoprotein particle HDL3and CSF. APOL1 forms a channel in the lysosomal membrane and disrupts the blood borne parasite's lysosomal function, killing it. Most trypanasome exposures are clinically inapparent because only two of the twenty known trypanosome species, varieties of T.brucei and T.cruzei, are pathogenic to humans. Variant alleles of looAPOL1 emerged in Africa with the property of antagonistic pleiotropy, effective against resistant strains of T.brucei, but they can cause progressive kidney disease especially with SLE and AIDS as co-morbities. Our hypothesis is that some APOL1 variants are associated with ALS because elevated APOL1 levels in plasma and or CSF can be toxic to susceptible neurons. APOL1 levels are influenced by in cis or in trans factors. APOL1 gene expression is likely regulated in cis by specific DNA variants and/or by in trans due to exposure to trypanosomes or to cytokines such as the interferons or other, yet to be identified, environmental factors. We have patient samples with associated epidemiological data that we will use to determine which APOL1 variants are correlated with plasma concentrations of ApoL1 and/or mRNA expression in patient-derived lymphoblasts. We also will additional patient and control samples from our own collection and those collected prospectively from new patients. In selected samples we will run assays to determine if blood can be used to determine whether a prior trypansomal infection has occurred as well as levels of cytokines that may be elevated due to inflammatory responses related to infection. This is a novel pioneering effort to ascertain 1. Whether APOL1 genetic variants and APOL1 levels predispose to SALS. 2. The extent to which Apol1 levels are affected by in cis and possibly in trans genetic variantsacting as eQTLs. 3. The effect on Apol1 levels by in trans environmental factors of exposure to trypanosomes, or secondarily by cytokines such as TNF-?, ?-interferon and type 1 interferons, or a combination thereof. 4. To establish Apol1 in the pathology of vulnerable neurons in human ALS. Our promising preliminary data, experienced team, and rigorously defined cohort of age-matched ALS cases and controls and extensive collection of ALS tissue and ongoing environment exposure data puts us in a unique position to carry out this novel proposal to fundamentally effect the understanding of SALS and its treatment.
Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disorder where 20% of ALS cases are genetic, with monogenic causes identified in about 17% caes while the remaining 80% appear to be multifactorial with no reproducible and/or robust genetic association or environmental factor(s), internal or external, that have been identified. Our work on an innate immunity protein (ApoL1) found in blood suggests that it may be a risk factor for ALS because it has dual properties of being able to kill common trypanosomes while also be toxic to neurons and other cells. This innovative work will explore for the first time whether specific genetic variants of Apol1 make individuals more susceptible to ALS.