Kidney organoid models of polycystic kidney disease: challenges and future directions
Humayra Afrin, Usama Qamar, Jielu Hao Robichaud, Mohammad Ellabbad, Peter C. Harris, Navin Gupta
Abstract
Kidney organoids are an increasingly established model of polycystic kidney disease (PKD). Derived from human pluripotent stem cells (hPSCs), organoids may be generated from induced pluripotent stem cells (iPSCs) of patients that bear naturally occurring mutations or from CRISPR mutant hPSCs by virtue of their genetic tractability. PKD is the leading inheritable cause of kidney failure (KF), accounting for ∼5%-10% of the kidney transplant and dialysis needs worldwide. PKD is a disorder of considerable genetic heterogeneity, composed of typical adult-onset autosomal dominant (ADPKD) and fetal-onset autosomal recessive (ARPKD) forms, which share pathomechanisms. Despite advances in our understanding of the genetic and molecular underpinnings of PKD, the limited clinical treatment options have raised concerns regarding the faithfulness of preclinical models. Kidney organoids have emerged as a promising platform to study PKD by mimicking human-specific responses, enabling personalized medicine, and supporting high-throughput screens. Yet, valid criticisms have related to the relative immaturity of kidney organoids for modeling adult-onset forms of PKD, the faithfulness of organoids in modeling the cystic distribution of afflicted patients, and their batch-to-batch variability limiting experimental reproducibility. Here, we summarize a decade of kidney organoid models of PKD, emphasizing their role in advancing translational and therapeutic applications while addressing their limitations and future potential.