Holocrine Secretion of Sebum Is a Unique DNase2-Dependent Mode of Programmed Cell Death

Sebaceous glands produce sebum via holocrine secretion, a largely uncharacterized mode of programmed cell death that contributes to the homeostasis and barrier function of the skin. To determine the mechanism of DNA degradation during sebocyte cell death, we have inactivated candidate DNA-degrading...

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Veröffentlicht in:	Journal of investigative dermatology 2017-03, Vol.137 (3), p.587-594
Hauptverfasser:	Fischer, Heinz, Fumicz, Judith, Rossiter, Heidemarie, Napirei, Markus, Buchberger, Maria, Tschachler, Erwin, Eckhart, Leopold
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Apoptosis DNA DNA, Mitochondrial - metabolism Endodeoxyribonucleases - genetics Endodeoxyribonucleases - metabolism Epithelial Cells - cytology Histones - metabolism Lysosomal Membrane Proteins - metabolism Lysosomes - metabolism Male Mice Mice, Inbred C57BL Mice, Knockout Sebaceous Glands - metabolism Sebum - cytology Skin - metabolism Uric Acid - metabolism
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container_title	Journal of investigative dermatology
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creator	Fischer, Heinz Fumicz, Judith Rossiter, Heidemarie Napirei, Markus Buchberger, Maria Tschachler, Erwin Eckhart, Leopold
description	Sebaceous glands produce sebum via holocrine secretion, a largely uncharacterized mode of programmed cell death that contributes to the homeostasis and barrier function of the skin. To determine the mechanism of DNA degradation during sebocyte cell death, we have inactivated candidate DNA-degrading enzymes by targeted gene deletions in mice. DNase1 and DNase1-like 2 were dispensable for nuclear DNA degradation in sebocytes. By contrast, epithelial cell-specific deletion of lysosomal DNase2 blocked DNA degradation in these cells. DNA breakdown during sebocyte differentiation coincided with the loss of LAMP1 and was accelerated by the abrogation of autophagy, the central cellular program of lysosome-dependent catabolism. Suppression of DNA degradation by the deletion of DNase2 resulted in aberrantly increased concentrations of residual DNA and decreased amounts of the DNA metabolite uric acid in secreted sebum. These results define holocrine secretion as a DNase2-mediated form of programmed cell death and suggest that autophagy-dependent metabolism, DNA degradation, and the molecular composition of sebum are mechanistically linked.
doi_str_mv	10.1016/j.jid.2016.10.017
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To determine the mechanism of DNA degradation during sebocyte cell death, we have inactivated candidate DNA-degrading enzymes by targeted gene deletions in mice. DNase1 and DNase1-like 2 were dispensable for nuclear DNA degradation in sebocytes. By contrast, epithelial cell-specific deletion of lysosomal DNase2 blocked DNA degradation in these cells. DNA breakdown during sebocyte differentiation coincided with the loss of LAMP1 and was accelerated by the abrogation of autophagy, the central cellular program of lysosome-dependent catabolism. Suppression of DNA degradation by the deletion of DNase2 resulted in aberrantly increased concentrations of residual DNA and decreased amounts of the DNA metabolite uric acid in secreted sebum. 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To determine the mechanism of DNA degradation during sebocyte cell death, we have inactivated candidate DNA-degrading enzymes by targeted gene deletions in mice. DNase1 and DNase1-like 2 were dispensable for nuclear DNA degradation in sebocytes. By contrast, epithelial cell-specific deletion of lysosomal DNase2 blocked DNA degradation in these cells. DNA breakdown during sebocyte differentiation coincided with the loss of LAMP1 and was accelerated by the abrogation of autophagy, the central cellular program of lysosome-dependent catabolism. Suppression of DNA degradation by the deletion of DNase2 resulted in aberrantly increased concentrations of residual DNA and decreased amounts of the DNA metabolite uric acid in secreted sebum. 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subjects	Animals Apoptosis DNA DNA, Mitochondrial - metabolism Endodeoxyribonucleases - genetics Endodeoxyribonucleases - metabolism Epithelial Cells - cytology Histones - metabolism Lysosomal Membrane Proteins - metabolism Lysosomes - metabolism Male Mice Mice, Inbred C57BL Mice, Knockout Sebaceous Glands - metabolism Sebum - cytology Skin - metabolism Uric Acid - metabolism
title	Holocrine Secretion of Sebum Is a Unique DNase2-Dependent Mode of Programmed Cell Death
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