Litcius/Paper detail

Tuning cohesin trajectories enables differential readout of the Pcdhα cluster across neurons

Lea Kiefer, Simon Gaudin, Sandy M. Rajkumar, Gabrielle Isabelle F. Servito, Jennifer Langen, Michael H. Mui, Shayra S. Nawsheen, Daniele Canzio

2024Science28 citationsDOI

Abstract

Expression of Protocadherin (Pcdh) genes is critical to the generation of neuron identity and wiring of the nervous system. Pcdhα genes are arranged in clusters and exhibit a range of expression profiles, from stochastic to deterministic. Because Pcdhα promoters have high sequence identity and share distal enhancers, how distinct neurons choose which gene to express remains unclear. We show that the interplay between multiple enhancers, epigenetics, and genome folding orchestrates differential readouts of the locus across neurons. The probability of Pcdhα promoter choice depends on enhancer/promoter encounters catalyzed by cohesin, whose extrusion trajectories determine the likelihood that an individual promoter can "escape" heterochromatin-mediated silencing. We propose that tunable locus-specific regulatory elements and cell type-specific cohesin activity underlie the generation of cellular diversity by Pcdh genes.

Topics & Concepts

EnhancerProtocadherinBiologyLocus (genetics)GeneticsGeneGene silencingEpigeneticsPromoterComputational biologyGene expressionCellCadherinRNA Research and SplicingGenomics and Chromatin DynamicsRNA and protein synthesis mechanisms