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Orb2 RNA-binding activity promotes neural stem cell development and brain growth in Drosophila larvae.

Created on 11 Jul 2026

Authors

Taylor Hailstock, Joseph Buehler, Beverly V Robinson, Timothy C H Low, Yuqing Hua, Temitope H Adebambo, Junhyung Ahn, Jack Govaerts, Todd A Schoborg, Howard D Lipshitz, Dorothy A Lerit

Published in

Cell reports. Volume 45. Issue 7. Pages 117680. Jul 09, 2026. Epub Jul 09, 2026.

Abstract

Neurodevelopment requires precise translational control, the disruption of which is implicated in neurological disorders, developmental delays, and microcephaly. We identify a role for the Drosophila CPEB-family protein Orb2, a translational regulator, in controlling brain size in a dose-dependent manner. Loss of orb2 results in larval brain hypotrophy, whereas orb2 overexpression causes brain overgrowth. We demonstrate that orb2 is required for neural stem cell (NSC) development from embryonic through larval neurogenesis. Structure-function analysis reveals that Orb2 RNA-binding activity promotes brain growth, while its poly-Q and ZZ domains restrain overgrowth. We identify a genetic and biochemical association between Orb2 and Brain tumor (Brat), a repressor of NSC differentiation and brain hypertrophy. Loss of orb2 diminishes Brat levels, while restoring Brat activity is sufficient to rescue orb2-dependent microcephaly. We propose that Orb2 promotes Brat translation directly and through the co-regulation of shared RNA targets, including Myc mRNA, to support Drosophila neurodevelopment.

PMID:
42430239
Bibliographic data and abstract were imported from PubMed on 11 Jul 2026.

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