Litcius/Paper detail

Insulin receptor orchestrates kidney antibacterial defenses

Laura Schwartz, Aaron Simoni, Pearlly S. Yan, Kristin Salamon, Altan Turkoglu, Gabriela Vásquez Martínez, Diana Zepeda‐Orozco, Tad Eichler, Xin Wang, John David Spencer

2024Proceedings of the National Academy of Sciences12 citationsDOIOpen Access PDF

Abstract

Urinary tract infection (UTI) commonly afflicts people with diabetes. This augmented infection risk is partly due to deregulated insulin receptor (IR) signaling in the kidney collecting duct. The collecting duct is composed of intercalated cells (ICs) and principal cells (PCs). Evidence suggests that ICs contribute to UTI defenses. Here, we interrogate how IR deletion in ICs impacts antibacterial defenses against uropathogenic Escherichia coli. We also explore how IR deletion affects immune responses in neighboring PCs with intact IR expression. To accomplish this objective, we profile the transcriptomes of IC and PC populations enriched from kidneys of wild-type and IC-specific IR knock-out mice that have increased UTI susceptibility. Transcriptomic analysis demonstrates that IR deletion suppresses IC-integrated stress responses and innate immune defenses. To define how IR shapes these immune defenses, we employ murine and human kidney cultures. When challenged with bacteria, murine ICs and human kidney cells with deregulated IR signaling cannot engage central components of the integrated stress response—including activating transcriptional factor 4 (ATF4). Silencing ATF4 impairs NFkB activation and promotes infection. In turn, NFkB silencing augments infection and suppresses antimicrobial peptide expression. In diabetic mice and people with diabetes, collecting duct cells show reduced IR expression, impaired integrated stress response engagement, and compromised immunity. Collectively, these translational data illustrate how IR orchestrates collecting duct antibacterial responses and the communication between ICs and PCs.

Topics & Concepts

Innate immune systemImmune systemBiologyTranscriptomeGene silencingInflammationKidneySignal transductionCell biologyImmunologyCancer researchMicrobiologyEndocrinologyGene expressionGeneticsGeneUrinary Tract Infections ManagementDiabetes and associated disordersUrinary Bladder and Prostate Research