Defunctionalizing Intracellular Organelles with Genetically-Encoded Molecular Tools Based on Engineered Phospholipase A/Acyltransferases (PLAATs)

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Abstract

Organelles vitally achieve multifaceted functions to maintain cellular homeostasis. Genetic and pharmacological approaches to manipulate individual organelles are powerful in probing their physiological roles. However, many of them are either slow in action, limited to certain organelles, or rely on toxic agents. Here, we designed a generalizable molecular tool utilizing phospholipase A/acyltransferases (PLAATs) for rapid induction of organelle defunctionalization via remodeling of the membrane phospholipid composition. In particular, we identified a minimal, fully catalytic PLAAT with no unfavorable side effects. Chemically-induced translocation of the engineered PLAAT to the mitochondria surface resulted in their rapid deformation in a phospholipase activity dependent manner, followed by loss of luminal proteins as well as dissipated membrane potential, thus invalidating the functionality. To demonstrate wide applicability, we then adapted the molecular tool in peroxisomes, and observed leakage of matrix-resident functional proteins. The technique was compatible with optogenetic control, viral delivery and operation in primary neuronal cultures. Due to such versatility, the PLAAT strategy should present a novel utility in organelle biology of diverse contexts.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00
unpaywall
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License: CC-BY-NC-ND-4.0