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Protein Kinase C promotes peroxisome biogenesis and peroxisome-endoplasmic reticulum interaction

Protein Kinase C promotes peroxisome biogenesis and peroxisome-endoplasmic reticulum interaction
Protein Kinase C promotes peroxisome biogenesis and peroxisome-endoplasmic reticulum interaction

Peroxisomes carry out a diverse set of metabolic functions, including oxidation of very long-chain fatty acids, degradation of D-amino acids and hydrogen peroxide, and bile acid production. Many of these functions are upregulated on demand; therefore, cells control peroxisome abundance, and by extension peroxisome function, in response to environmental and developmental cues. The mechanisms upregulating peroxisomes in mammalian cells have remained unclear. Here, we identify a signaling regulatory network that coordinates cellular demand for peroxisomes and peroxisome abundance by regulating peroxisome proliferation and interaction with ER. We show that PKC promotes peroxisome PEX11b-dependent formation. PKC activation leads to an increase in peroxisome-ER contact site formation through inactivation of GSK3β. We show that removal of VAPA and VAPB impairs peroxisome biogenesis and PKC regulation. During neuronal differentiation, active PKC leads to a significant increase in peroxisome formation. We propose that peroxisomal regulation by transient PKC activation enables fine-tuned responses to the need for peroxisomal activity.

1540-8140
Borisyuk, Anya
ab94722b-4ac9-4ff4-8cc7-638191154a84
Howman, Charlotte
522038af-19b8-48a4-b8f6-e5811c7b0a9d
Pattabiraman, Sundararaghavan
a9f5aac6-6388-4b65-ba29-33aa47aad5a4
Kaganovich, Daniel
ebb13f4e-e925-4aef-88e7-ddc25ef52d8f
Amen, Triana
388dc540-e819-4d07-8f1e-ee0f3949a54b
Borisyuk, Anya
ab94722b-4ac9-4ff4-8cc7-638191154a84
Howman, Charlotte
522038af-19b8-48a4-b8f6-e5811c7b0a9d
Pattabiraman, Sundararaghavan
a9f5aac6-6388-4b65-ba29-33aa47aad5a4
Kaganovich, Daniel
ebb13f4e-e925-4aef-88e7-ddc25ef52d8f
Amen, Triana
388dc540-e819-4d07-8f1e-ee0f3949a54b

Borisyuk, Anya, Howman, Charlotte, Pattabiraman, Sundararaghavan, Kaganovich, Daniel and Amen, Triana (2025) Protein Kinase C promotes peroxisome biogenesis and peroxisome-endoplasmic reticulum interaction. The Journal of cell biology, 224 (9). (doi:10.1083/jcb.202505040).

Record type: Article

Abstract

Peroxisomes carry out a diverse set of metabolic functions, including oxidation of very long-chain fatty acids, degradation of D-amino acids and hydrogen peroxide, and bile acid production. Many of these functions are upregulated on demand; therefore, cells control peroxisome abundance, and by extension peroxisome function, in response to environmental and developmental cues. The mechanisms upregulating peroxisomes in mammalian cells have remained unclear. Here, we identify a signaling regulatory network that coordinates cellular demand for peroxisomes and peroxisome abundance by regulating peroxisome proliferation and interaction with ER. We show that PKC promotes peroxisome PEX11b-dependent formation. PKC activation leads to an increase in peroxisome-ER contact site formation through inactivation of GSK3β. We show that removal of VAPA and VAPB impairs peroxisome biogenesis and PKC regulation. During neuronal differentiation, active PKC leads to a significant increase in peroxisome formation. We propose that peroxisomal regulation by transient PKC activation enables fine-tuned responses to the need for peroxisomal activity.

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e-pub ahead of print date: 21 July 2025
Published date: 1 September 2025
Additional Information: Publisher Copyright: © 2025 Borisyuk et al.
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Identifiers

Local EPrints ID: 511562
URI: http://eprints.soton.ac.uk/id/eprint/511562
DOI: doi:10.1083/jcb.202505040
ISSN: 1540-8140
PURE UUID: 94ee3f9a-b650-40cf-ac9e-299382d230d5
ORCID for Daniel Kaganovich: ORCID iD orcid.org/0000-0003-2398-1596
ORCID for Triana Amen: ORCID iD orcid.org/0000-0003-4808-7806

Catalogue record

Date deposited: 20 May 2026 16:58
Last modified: 21 May 2026 02:08

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Contributors

Author: Anya Borisyuk
Author: Charlotte Howman
Author: Sundararaghavan Pattabiraman
Author: Daniel Kaganovich ORCID iD
Author: Triana Amen ORCID iD

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