Oleic Acid is an Endogenous Ligand of TLX/NR2E1 That Triggers Hippocampal Neurogenesis

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2022 Mar 25

PMID 35333654

Authors

Prasanna Kandel

Fatih Semerci

Rachana Mishra

William Choi

Aleksandar Bajic

Dodge Baluya

Lihua Ma

Kevin Chen

Austin C Cao

Tipwarin Phongmekhin

Nick Matinyan

Alba Jimenez-Panizo

Srinivas Chamakuri

Idris O Raji

Lyra Chang

Pablo Fuentes-Prior

Kevin R MacKenzie

Caroline L Benn

Eva Estebanez-Perpina

Koen Venken

David D Moore

Damian W Young

Mirjana Maletic-Savatic

Affiliations

Soon will be listed here.

Abstract

Neural stem cells, the source of newborn neurons in the adult hippocampus, are intimately involved in learning and memory, mood, and stress response. Despite considerable progress in understanding the biology of neural stem cells and neurogenesis, regulating the neural stem cell population precisely has remained elusive because we have lacked the specific targets to stimulate their proliferation and neurogenesis. The orphan nuclear receptor TLX/NR2E1 governs neural stem and progenitor cell self-renewal and proliferation, but the precise mechanism by which it accomplishes this is not well understood because its endogenous ligand is not known. Here, we identify oleic acid (18:1ω9 monounsaturated fatty acid) as such a ligand. We first show that oleic acid is critical for neural stem cell survival. Next, we demonstrate that it binds to TLX to convert it from a transcriptional repressor to a transcriptional activator of cell-cycle and neurogenesis genes, which in turn increases neural stem cell mitotic activity and drives hippocampal neurogenesis in mice. Interestingly, oleic acid-activated TLX strongly up-regulates cell cycle genes while only modestly up-regulating neurogenic genes. We propose a model in which sufficient quantities of this endogenous ligand must bind to TLX to trigger the switch to proliferation and drive the progeny toward neuronal lineage. Oleic acid thus serves as a metabolic regulator of TLX activity that can be used to selectively target neural stem cells, paving the way for future therapeutic manipulations to counteract pathogenic impairments of neurogenesis.

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