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The citrate transporter SLC13A5 as a therapeutic target for kidney disease: evidence from Mendelian randomization to inform drug development
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The citrate transporter SLC13A5 as a therapeutic target for kidney disease: evidence from Mendelian randomization to inform drug development
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Journal Article
The citrate transporter SLC13A5 as a therapeutic target for kidney disease: evidence from Mendelian randomization to inform drug development
2023
Overview
Background
Solute carrier family 13 member 5 (SLC13A5) is a Na
+
-coupled citrate co-transporter that mediates entry of extracellular citrate into the cytosol. SLC13A5 inhibition has been proposed as a target for reducing progression of kidney disease. The aim of this study was to leverage the Mendelian randomization paradigm to gain insight into the effects of SLC13A5 inhibition in humans, towards prioritizing and informing clinical development efforts.
Methods
The primary Mendelian randomization analyses investigated the effect of SLC13A5 inhibition on measures of kidney function, including creatinine and cystatin C-based measures of estimated glomerular filtration rate (creatinine-eGFR and cystatin C-eGFR), blood urea nitrogen (BUN), urine albumin-creatinine ratio (uACR), and risk of chronic kidney disease and microalbuminuria. Secondary analyses included a paired plasma and urine metabolome-wide association study, investigation of secondary traits related to SLC13A5 biology, a phenome-wide association study (PheWAS), and a proteome-wide association study. All analyses were compared to the effect of genetically predicted plasma citrate levels using variants selected from across the genome, and statistical sensitivity analyses robust to the inclusion of pleiotropic variants were also performed. Data were obtained from large-scale genetic consortia and biobanks, with sample sizes ranging from 5023 to 1,320,016 individuals.
Results
We found evidence of associations between genetically proxied SLC13A5 inhibition and higher creatinine-eGFR (
p
= 0.002), cystatin C-eGFR (
p
= 0.005), and lower BUN (
p
= 3 × 10
−4
). Statistical sensitivity analyses robust to the inclusion of pleiotropic variants suggested that these effects may be a consequence of higher plasma citrate levels. There was no strong evidence of associations of genetically proxied SLC13A5 inhibition with uACR or risk of CKD or microalbuminuria. Secondary analyses identified evidence of associations with higher plasma calcium levels (
p
= 6 × 10
−13
) and lower fasting glucose (
p
= 0.02). PheWAS did not identify any safety concerns.
Conclusions
This Mendelian randomization analysis provides human-centric insight to guide clinical development of an SLC13A5 inhibitor. We identify plasma calcium and citrate as biologically plausible biomarkers of target engagement, and plasma citrate as a potential biomarker of mechanism of action. Our human genetic evidence corroborates evidence from various animal models to support effects of SLC13A5 inhibition on improving kidney function.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
/ Biobanks
/ Calcium
/ Citrate
/ Citrates
/ Cytosol
/ Epidermal growth factor receptors
/ Genes
/ Genome-Wide Association Study
/ Genomes
/ Glucose
/ Humans
/ Kidney
/ Kidneys
/ Lipids
/ Medicine
/ Mendelian Randomization Analysis
/ Methods
/ Plasma
/ Proteins
/ Renal Insufficiency, Chronic - drug therapy
/ Renal Insufficiency, Chronic - genetics
/ SLC13A5
/ Urea
/ Urine
