Abstract

Simple SummaryRenal cell carcinoma (RCC) occurs at higher frequency in individuals of African ancestry, with well-recorded documentation in this community. This is most prominent in the context of chronic kidney disease. In turn, many forms of progressive chronic kidney disease are more common in populations of Sub-Saharan African ancestry. This disparity has been attributed to well-defined allelic variants and has risen in the parental populations to high frequency under evolutionary pressure. Mechanisms of increased kidney disease risk and cell injury, causally associated with these APOL1 gene variants, have been extensively studied. Most studies have compared the effects of ectopic overexpression of the parental non-risk APOL1 with the mutated risk variants in cellular and organismal platforms. In the current study, we have used CRISPR/Cas9 genetic engineering to knock out or modify the sequence of endogenous APOL1 in RCC to mimic and examine the effects of these naturally occurring kidney disease risk allelic variants. Remarkably, these modifications to endogenous APOL1 genes in RCC resulted in a set of prominent effects on mitochondrial integrity and metabolic pathways and disrupted tumorigenesis. These findings both clarify pathways of cell injury of APOL1 risk variants in cells of kidney origin and motivate further studies to examine the potential central role of APOL1 in the pathogenesis of renal cell carcinoma and its relation to chronic kidney disease in genotypically at-risk African ancestry individuals.Although the relative risk of renal cell carcinoma associated with chronic kidney injury is particularly high among sub-Saharan African ancestry populations, it is unclear yet whether the APOL1 gene risk variants (RV) for kidney disease additionally elevate this risk. APOL1 G1 and G2 RV contribute to increased risk for kidney disease in black populations, although the disease mechanism has still not been fully deciphered. While high expression levels of all three APOL1 allelic variants, G0 (the wild type allele), G1, and G2 are injurious to normal human cells, renal carcinoma cells (RCC) naturally tolerate inherent high expression levels of APOL1. We utilized CRISPR/Cas9 gene editing to generate isogenic RCC clones expressing APOL1 G1 or G2 risk variants on a similar genetic background, thus enabling a reliable comparison between the phenotypes elicited in RCC by each of the APOL1 variants. Here, we demonstrate that knocking in the G1 or G2 APOL1 alleles, or complete elimination of APOL1 expression, has major effects on proliferation capacity, mitochondrial morphology, cell metabolism, autophagy levels, and the tumorigenic potential of RCC cells. The most striking effect of the APOL1 RV effect was demonstrated in vivo by the complete abolishment of tumor growth in immunodeficient mice. Our findings suggest that, in contrast to the WT APOL1 variant, APOL1 RV are toxic for RCC cells and may act to suppress cancer cell growth. We conclude that the inherent expression of non-risk APOL1 G0 is required for RCC tumorigenicity. RCC cancer cells can hardly tolerate increased APOL1 risk variants expression levels as opposed to APOL1 G0.

Highlights

  • An increased relative risk of renal cell carcinoma associated with chronic kidney dis‐ease (CKD) is well documented among populations with sub‐Saharan African ancestry, most notably African‐Americans

  • [34], we examined whether the metabolism and the bioenergetics are altered in renal carcinoma cells (RCC) cells that express the Apolipoprotein L1 (APOL1) risk variants (RV) and manifest the swelling morphology

  • We recognize the potential limitations of the current study, the possible influence of clonal variation affecting the cell lines derived from single cells following ge‐

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Summary

Introduction

An increased relative risk of renal cell carcinoma associated with chronic kidney dis‐. Ease (CKD) is well documented among populations with sub‐Saharan African ancestry, most notably African‐Americans. The estimated proportion of renal cell carcinoma at‐. Tributable to CKD within these populations accounts for 10%, while it is negligible among. It is not known whether the APOL1 risk variants for CDK elevate the risk of renal cell carcinoma in these populations [1]. APOL1 is expressed in podocytes and vascular components of the glomerulus, suggesting that it might play a role in renal diseases that affect the structure and function of these cells [2,5]. APOL1 is associated with an increased risk of CKD, including end‐stage kidney disease (ESKD), focal segmental glomerulosclerosis (FSGS), and HIV‐

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