A lysosome membrane regeneration pathway depends on TBC1D15 and autophagic lysosomal reformation proteins

Anshu Bhattacharya^{1

2}, Rukmini Mukherjee^{1

2

3}, Santosh Kumar Kuncha^{1

2}, Melinda Elaine Brunstein¹, Rajeshwari Rathore¹, Stephan Junek^{3

4}, Christian Münch¹, Ivan Dikic^{5

6

7

8}

Affiliations

¹ Institute of Biochemistry II, Faculty of Medicine, Goethe University, Frankfurt, Germany.
² Buchmann Institute for Molecular Life Sciences, Goethe University, Frankfurt, Germany.
³ Max Planck Institute of Biophysics, Frankfurt, Germany.
⁴ Max Planck Institute for Brain Research, Frankfurt, Germany.
⁵ Institute of Biochemistry II, Faculty of Medicine, Goethe University, Frankfurt, Germany. dikic@biochem2.uni-frankfurt.de.
⁶ Buchmann Institute for Molecular Life Sciences, Goethe University, Frankfurt, Germany. dikic@biochem2.uni-frankfurt.de.
⁷ Max Planck Institute of Biophysics, Frankfurt, Germany. dikic@biochem2.uni-frankfurt.de.
⁸ Fraunhofer Institute for Translational Medicine and Pharmacology (ITMP), Frankfurt, Germany. dikic@biochem2.uni-frankfurt.de.

PMID: 37024685
DOI: 10.1038/s41556-023-01125-9

A lysosome membrane regeneration pathway depends on TBC1D15 and autophagic lysosomal reformation proteins

Anshu Bhattacharya et al. Nat Cell Biol. 2023 May.

. 2023 May;25(5):685-698.

doi: 10.1038/s41556-023-01125-9. Epub 2023 Apr 6.

Authors

Affiliations

¹ Institute of Biochemistry II, Faculty of Medicine, Goethe University, Frankfurt, Germany.
² Buchmann Institute for Molecular Life Sciences, Goethe University, Frankfurt, Germany.
³ Max Planck Institute of Biophysics, Frankfurt, Germany.
⁴ Max Planck Institute for Brain Research, Frankfurt, Germany.
⁵ Institute of Biochemistry II, Faculty of Medicine, Goethe University, Frankfurt, Germany. dikic@biochem2.uni-frankfurt.de.
⁶ Buchmann Institute for Molecular Life Sciences, Goethe University, Frankfurt, Germany. dikic@biochem2.uni-frankfurt.de.
⁷ Max Planck Institute of Biophysics, Frankfurt, Germany. dikic@biochem2.uni-frankfurt.de.
⁸ Fraunhofer Institute for Translational Medicine and Pharmacology (ITMP), Frankfurt, Germany. dikic@biochem2.uni-frankfurt.de.

PMID: 37024685
DOI: 10.1038/s41556-023-01125-9

Abstract

Acute lysosomal membrane damage reduces the cellular population of functional lysosomes. However, these damaged lysosomes have a remarkable recovery potential independent of lysosomal biogenesis and remain unaffected in cells depleted in TFEB and TFE3. We combined proximity-labelling-based proteomics, biochemistry and high-resolution microscopy to unravel a lysosomal membrane regeneration pathway that depends on ATG8, the lysosomal membrane protein LIMP2, the RAB7 GTPase-activating protein TBC1D15 and proteins required for autophagic lysosomal reformation, including dynamin-2, kinesin-5B and clathrin. Following lysosomal damage, LIMP2 acts as a lysophagy receptor to bind ATG8, which in turn recruits TBC1D15 to damaged membranes. TBC1D15 interacts with ATG8 proteins on damaged lysosomes and provides a scaffold to assemble and stabilize the autophagic lysosomal reformation machinery. This potentiates the formation of lysosomal tubules and subsequent dynamin-2-dependent scission. TBC1D15-mediated lysosome regeneration was also observed in a cell culture model of oxalate nephropathy.

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References

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A lysosome membrane regeneration pathway depends on TBC1D15 and autophagic lysosomal reformation proteins

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A lysosome membrane regeneration pathway depends on TBC1D15 and autophagic lysosomal reformation proteins

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