3α,5α-tetrahydroprogesterone (allopregnanolone) and γ-aminobutyric acid: Autocrine/paracrine interactions in the control of neonatal PSA-NCAM+ progenitor proliferation

Abstract

The earliest identified neonatal neural progenitors are cells that express the polysialylated form of the neural cell adhesion molecule (PSA‐NCAM). One of these progenitors is the early PSA‐NCAM^+^ progenitor (ePSA‐NCAM^+^ progenitor; Gago et al. [2003] Mol Cell Neurosci 22:162–178), which corresponds to a multipotential cell with a default differentiation through glial lineages. The ePSA‐NCAM^+^ progenitor can synthesize the neurosteroid progesterone (PROG) and its reduced metabolite 3α,5α‐tetrahydroprogesterone (3α,5α‐THP, or allopregnanolone; Gago et al. [ 2001] Glia 36:295–308). The latter is a potent positive allosteric modulator of γ‐aminobutyric acid type A (GABA~A~) receptors. In the present work, we demonstrate that PROG and 3α,5α‐THP both stimulate ePSA‐NCAM^+^ progenitor proliferation. PROG exerted its mitogenic effect indirectly, through its conversion to 3α,5α‐THP, since it could be abolished by an inhibitor of the 5α‐reductase (L685‐273) and mimicked by 3α,5α‐THP. A dose‐response curve revealed a bell‐shaped effect of 3α,5α‐THP on ePSA‐NCAM^+^ progenitor proliferation, with greatest stimulation at nanomolar concentrations. The mitogenic effect of 3α,5α‐THP was mediated by GABA~A~ receptors, insofar as it could be blocked by the selective antagonist bicuculline. ePSA‐NCAM^+^ progenitors indeed expressed mRNAs for GABA~A~ receptor subunits, and GABA enhanced cell proliferation, an effect that was also bicuculline sensitive. Moreover, these cells synthesized GABA, which was involved in a tonic stimulation of their proliferation. These results reveal complex autocrine/paracrine loops in the control of ePSA‐NCAM^+^ progenitor proliferation, involving both neurosteroid and GABA signaling, and suggest a novel key role for 3α,5α‐THP in the development of the nervous system. © 2004 Wiley‐Liss, Inc.