A distinct Acyl-CoA binding protein (ACBP6) shapes tissue plasticity during nutrient adaptation in Drosophila. Academic Article

abstract

• Nutrient availability is a major selective force in the evolution of metazoa, and thus plasticity in tissue function and morphology is shaped by adaptive responses to nutrient changes. Utilizing Drosophila, we reveal that distinct calibration of acyl-CoA metabolism, mediated by Acbp6 (Acyl-CoA binding-protein 6), is critical for nutrient-dependent tissue plasticity. Drosophila Acbp6, which arose by evolutionary duplication and binds acyl-CoA to tune acetyl-CoA metabolism, is required for intestinal resizing after nutrient deprivation through activating intestinal stem cell proliferation from quiescence. Disruption of acyl-CoA metabolism by Acbp6 attenuation drives aberrant 'switching' of metabolic networks in intestinal enterocytes during nutrient adaptation, impairing acetyl-CoA metabolism and acetylation amid intestinal resizing. We also identified STAT92e, whose function is influenced by acetyl-CoA levels, as a key regulator of acyl-CoA and nutrient-dependent changes in stem cell activation. These findings define a regulatory mechanism, shaped by acyl-CoA metabolism, that adjusts proliferative homeostasis to coordinately regulate tissue plasticity during nutrient adaptation.

authors

• Karpac, Jason

published proceedings

• Nat Commun

author list (cited authors)

• Li, X., & Karpac, J.

citation count

• 1

complete list of authors

• Li, Xiaotong||Karpac, Jason

publication date

• November 2023

publisher

• Springer Nature  Publisher

published in

• Nature Communications  Journal

keywords

• Acetyl Coenzyme A
• Acyl Coenzyme A
• Animals
• Diazepam Binding Inhibitor
• Drosophila
• Protein Binding

PubMed Central ID

• 37989752

Digital Object Identifier (DOI)

• 10.1038/s41467-023-43362-4

start page

• 7599

volume

• 14

issue

• 1

URL

• http://dx.doi.org/10.1038/s41467-023-43362-4