Regulation of MITF-M-dependent genes involved in lysosome biogenesis and autophagy

Summary
Organism
Homo sapiens (human)
Reactome
R-HSA-9857377
PubChem
R-HSA-9857377
Description
  • MITF regulates biogenesis of organelles such as the lysosome and endosomes through its regulation of components of the V-ATPase that is required for organelle acidification and function (Zhang et al, 2015; Ploper et al, 2015a; reviewed in Ploper et al, 2015b). MITF-dependent targets also contribute to autophagy when cells are stressed for nutrients (Möller et al, 2019). MITF additionally controls expression of the lysosome-resident acid ceramidase ASAH1 that has roles in sphingolipid metabolism and cellular proliferation in melanoma (Leclerc et al, 2019; Realini et al, 2016).
Click on a node on the pathway to see its details. Glycoproteins are marked with a glycoprotein icon in their name.
Displaying all 5 entries
UniProt ID Protein Name Gene Symbol Pathway Viewer
O15342 V-type proton ATPase subunit e 1
  • ATP6H
  • ATP6V0E
  • ATP6V0E1
view
P27449 V-type proton ATPase 16 kDa proteolipid subunit c
  • ATP6C
  • ATP6L
  • ATP6V0C
  • ATPL
view
P36543 V-type proton ATPase subunit E 1
  • ATP6E
  • ATP6E2
  • ATP6V1E1
view
P38606 V-type proton ATPase catalytic subunit A
  • ATP6A1
  • ATP6V1A
  • ATP6V1A1
  • VPP2
view
Q13510 Acid ceramidase
  • ASAH
  • ASAH1
  • HSD-33
  • HSD33
view

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Acknowledgements

Supported by JST NBDC Grant Number JPMJND2204

Partly supported by NIH Common Fund Grant #1U01GM125267-01


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Last updated: April 6, 2026