PKD2/polycystin-2 induces autophagy by forming a complex with BECN1

Daniel Peña-Oyarzun; Marcelo Rodriguez-Peña; Francesca Burgos-Bravo; Angelo Vergara; Catalina Kretschmar; Cristian Sotomayor-Flores; Cesar A. Ramirez-Sarmiento; Humbert De Smedt; Montserrat Reyes; William Perez; Vicente A. Torres; Eugenia Morselli; Francisco Altamirano; Christian A.M. Wilson; Joseph A. Hill; Sergio Lavandero; Alfredo Criollo

doi:10.1080/15548627.2020.1782035

PKD2/polycystin-2 induces autophagy by forming a complex with BECN1

Daniel Peña-Oyarzun, Marcelo Rodriguez-Peña, Francesca Burgos-Bravo, Angelo Vergara, Catalina Kretschmar, Cristian Sotomayor-Flores, Cesar A. Ramirez-Sarmiento, Humbert De Smedt, Montserrat Reyes, William Perez, Vicente A. Torres, Eugenia Morselli, Francisco Altamirano, Christian A.M. Wilson, Joseph A. Hill, Sergio Lavandero, Alfredo Criollo

Universidad de Chile

Résultat de recherche › examen par les pairs

32 Citations (Scopus)

Résumé

Macroautophagy/autophagy is an intracellular process involved in the breakdown of macromolecules and organelles. Recent studies have shown that PKD2/PC2/TRPP2 (polycystin 2, transient receptor potential cation channel), a nonselective cation channel permeable to Ca²⁺ that belongs to the family of transient receptor potential channels, is required for autophagy in multiple cell types by a mechanism that remains unclear. Here, we report that PKD2 forms a protein complex with BECN1 (beclin 1), a key protein required for the formation of autophagic vacuoles, by acting as a scaffold that interacts with several co-modulators via its coiled-coil domain (CCD). Our data identified a physical and functional interaction between PKD2 and BECN1, which depends on one out of two CCD domains (CC1), located in the carboxy-terminal tail of PKD2. In addition, depletion of intracellular Ca²⁺ with BAPTA-AM not only blunted starvation-induced autophagy but also disrupted the PKD2-BECN1 complex. Consistently, PKD2 overexpression triggered autophagy by increasing its interaction with BECN1, while overexpression of PKD2^D509V, a Ca²⁺ channel activity-deficient mutant, did not induce autophagy and manifested diminished interaction with BECN1. Our findings show that the PKD2-BECN1 complex is required for the induction of autophagy, and its formation depends on the presence of the CC1 domain of PKD2 and on intracellular Ca²⁺ mobilization by PKD2. These results provide new insights regarding the molecular mechanisms by which PKD2 controls autophagy. Abbreviations: ADPKD: autosomal dominant polycystic kidney disease; ATG: autophagy-related; ATG14/ATG14L: autophagy related 14; Baf A1: bafilomycin A₁; BCL2/Bcl-2: BCL2 apoptosis regulator; BCL2L1/BCL-XL: BCL2 like 1; BECN1: beclin 1; CCD: coiled-coil domain; EBSS: Earle’s balanced salt solution; ER: endoplasmic reticulum; GAPDH: glyceraldehyde-3-phosphate dehydrogenase; GFP: green fluorescent protein; GOLGA2/GM130: golgin A2; GST: glutathione s-transferase; LAMP1: lysosomal associated membrane protein 1; MAP1LC3/LC3: microtubule associated protein 1 light chain 3; MTORC1: mechanistic target of rapamycin kinase complex 1; NBR1: NBR1 autophagy cargo receptor; PIK3C3/VPS34: phosphatidylinositol 3-kinase catalytic subunit type 3; PKD2/PC2: polycystin 2, transient receptor potential cation channel; RTN4/NOGO: reticulon 4; RUBCN/RUBICON: rubicon autophagy regulator; SQSTM1/p62: sequestosome 1; UVRAG: UV radiation resistance associated; WIPI2: WD repeat domain, phosphoinositide interacting 2.

Langue d'origine	English
Pages (de-à)	1714-1728
Nombre de pages	15
Journal	Autophagy
Volume	17
Numéro de publication	7
DOI	https://doi.org/10.1080/15548627.2020.1782035
Statut de publication	Published - 2021

Financement

This work was supported by the Comisión Nacional de Investigación y Desarrollo Tecnológico (CONICYT, Chile): FONDECYT [1160820 to E.M.], [1180495 to V.A.T.], [1181361 to C.A.M.W.], [1200490 to S.L.], [1171075 to A.C.]; PIA-CONICYT [ACT172066 to AC and EM]; FONDAP [15130011 to S.L.; V.A.T.; A.C.]; CONICYT PhD fellowships: [21140458 to D.P-O], [21140848 to C.K.], [21140671 to C.S-F.]; CONICYT International Investigation Project [PII20150073 to C.A.M.W.]; PEW Latin American Fellows Program in the Biomedical Science [00002991 to A.C]; NIH grants [HL-120732, HL-128215, HL-126012, HL-147933 to J.A.H.]; U-inicia Program at Universidad de Chile [UI-024/19 to M.R.]; Startup funds provided by the Houston Methodist Research Institute to F.A and by the International Centre for Genetic Engineering and Biotechnology, ICGEB, [CRP/CHL16-06 to E.M.] We sincerely thank everyone in the Criollo and Lavandero laboratories for discussion and constructive criticism. We also thank Dr. Matthew J. Ranaghan, from Broad Institute of MIT and Harvard University, USA, for providing the BECN1[1-265]- and the BECN1[248-450]-coding plasmids; Dr. Xing-Zhen Chen from University of Alberta, Canada, for providing the GST-PKD2 C-term[682-968]-coding plasmid; Dr. Li Yu from Tsinghua University, Beijing, China for providing the GFP-WIPI2 plasmid; Dr. Peter Harris from Mayo Clinic, Rochester, Minnesota, USA, for providing the FL PKD2-, PKD2ΔCC1 - and PKD2ΔCC2 -coding plasmids. Finally, we thank the Advanced Cellular and Tissue Microscopy Core at Houston Methodist Research Institute for providing access to the Olympus FV3000 confocal microscope.

Bailleurs de fonds	Numéro du bailleur de fonds
Comisión Nacional de Investigación y Desarrollo Tecnológico
PIA-CONICYT	ACT172066
National Institutes of Health	HL-128215, HL-120732, HL-126012
National Heart, Lung, and Blood Institute	R01HL147933
Mayo Clinic	PKD2ΔCC2, PKD2ΔCC1 -
Harvard University	1-265, 248-450
Broad Institute
Houston Methodist Research Institute
University of Alberta	682-968
International Centre for Genetic Engineering and Biotechnology	CRP/CHL16-06
Fondo Nacional de Desarrollo Científico y Tecnológico	1160820, 1180495, 1200490, 1171075, 1181361
Tsinghua University
Universidad de Chile	UI-024/19
Fondo de Financiamiento de Centros de Investigación en Áreas Prioritarias	15130011, 21140848, 21140458, 00002991, 21140671, PII20150073

ASJC Scopus Subject Areas

Molecular Biology
Cell Biology

Accès au document

10.1080/15548627.2020.1782035

Autres fichiers et liens

Citer

Peña-Oyarzun, D., Rodriguez-Peña, M., Burgos-Bravo, F., Vergara, A., Kretschmar, C., Sotomayor-Flores, C., Ramirez-Sarmiento, C. A., De Smedt, H., Reyes, M., Perez, W., Torres, V. A., Morselli, E., Altamirano, F., Wilson, C. A. M., Hill, J. A., Lavandero, S., & Criollo, A. (2021). PKD2/polycystin-2 induces autophagy by forming a complex with BECN1. Autophagy, 17(7), 1714-1728. https://doi.org/10.1080/15548627.2020.1782035

Peña-Oyarzun, D, Rodriguez-Peña, M, Burgos-Bravo, F, Vergara, A, Kretschmar, C, Sotomayor-Flores, C, Ramirez-Sarmiento, CA, De Smedt, H, Reyes, M, Perez, W, Torres, VA, Morselli, E, Altamirano, F, Wilson, CAM, Hill, JA, Lavandero, S & Criollo, A 2021, 'PKD2/polycystin-2 induces autophagy by forming a complex with BECN1', Autophagy, vol. 17, n° 7, pp. 1714-1728. https://doi.org/10.1080/15548627.2020.1782035

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title = "PKD2/polycystin-2 induces autophagy by forming a complex with BECN1",

abstract = "Macroautophagy/autophagy is an intracellular process involved in the breakdown of macromolecules and organelles. Recent studies have shown that PKD2/PC2/TRPP2 (polycystin 2, transient receptor potential cation channel), a nonselective cation channel permeable to Ca2+ that belongs to the family of transient receptor potential channels, is required for autophagy in multiple cell types by a mechanism that remains unclear. Here, we report that PKD2 forms a protein complex with BECN1 (beclin 1), a key protein required for the formation of autophagic vacuoles, by acting as a scaffold that interacts with several co-modulators via its coiled-coil domain (CCD). Our data identified a physical and functional interaction between PKD2 and BECN1, which depends on one out of two CCD domains (CC1), located in the carboxy-terminal tail of PKD2. In addition, depletion of intracellular Ca2+ with BAPTA-AM not only blunted starvation-induced autophagy but also disrupted the PKD2-BECN1 complex. Consistently, PKD2 overexpression triggered autophagy by increasing its interaction with BECN1, while overexpression of PKD2D509V, a Ca2+ channel activity-deficient mutant, did not induce autophagy and manifested diminished interaction with BECN1. Our findings show that the PKD2-BECN1 complex is required for the induction of autophagy, and its formation depends on the presence of the CC1 domain of PKD2 and on intracellular Ca2+ mobilization by PKD2. These results provide new insights regarding the molecular mechanisms by which PKD2 controls autophagy. Abbreviations: ADPKD: autosomal dominant polycystic kidney disease; ATG: autophagy-related; ATG14/ATG14L: autophagy related 14; Baf A1: bafilomycin A1; BCL2/Bcl-2: BCL2 apoptosis regulator; BCL2L1/BCL-XL: BCL2 like 1; BECN1: beclin 1; CCD: coiled-coil domain; EBSS: Earle{\textquoteright}s balanced salt solution; ER: endoplasmic reticulum; GAPDH: glyceraldehyde-3-phosphate dehydrogenase; GFP: green fluorescent protein; GOLGA2/GM130: golgin A2; GST: glutathione s-transferase; LAMP1: lysosomal associated membrane protein 1; MAP1LC3/LC3: microtubule associated protein 1 light chain 3; MTORC1: mechanistic target of rapamycin kinase complex 1; NBR1: NBR1 autophagy cargo receptor; PIK3C3/VPS34: phosphatidylinositol 3-kinase catalytic subunit type 3; PKD2/PC2: polycystin 2, transient receptor potential cation channel; RTN4/NOGO: reticulon 4; RUBCN/RUBICON: rubicon autophagy regulator; SQSTM1/p62: sequestosome 1; UVRAG: UV radiation resistance associated; WIPI2: WD repeat domain, phosphoinositide interacting 2.",

author = "Daniel Pe{\~n}a-Oyarzun and Marcelo Rodriguez-Pe{\~n}a and Francesca Burgos-Bravo and Angelo Vergara and Catalina Kretschmar and Cristian Sotomayor-Flores and Ramirez-Sarmiento, {Cesar A.} and {De Smedt}, Humbert and Montserrat Reyes and William Perez and Torres, {Vicente A.} and Eugenia Morselli and Francisco Altamirano and Wilson, {Christian A.M.} and Hill, {Joseph A.} and Sergio Lavandero and Alfredo Criollo",

note = "Publisher Copyright: {\textcopyright} 2020 Informa UK Limited, trading as Taylor & Francis Group.",

year = "2021",

doi = "10.1080/15548627.2020.1782035",

language = "English",

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TY - JOUR

T1 - PKD2/polycystin-2 induces autophagy by forming a complex with BECN1

AU - Peña-Oyarzun, Daniel

AU - Rodriguez-Peña, Marcelo

AU - Burgos-Bravo, Francesca

AU - Vergara, Angelo

AU - Kretschmar, Catalina

AU - Sotomayor-Flores, Cristian

AU - Ramirez-Sarmiento, Cesar A.

AU - De Smedt, Humbert

AU - Reyes, Montserrat

AU - Perez, William

AU - Torres, Vicente A.

AU - Morselli, Eugenia

AU - Altamirano, Francisco

AU - Wilson, Christian A.M.

AU - Hill, Joseph A.

AU - Lavandero, Sergio

AU - Criollo, Alfredo

PY - 2021

Y1 - 2021

N2 - Macroautophagy/autophagy is an intracellular process involved in the breakdown of macromolecules and organelles. Recent studies have shown that PKD2/PC2/TRPP2 (polycystin 2, transient receptor potential cation channel), a nonselective cation channel permeable to Ca2+ that belongs to the family of transient receptor potential channels, is required for autophagy in multiple cell types by a mechanism that remains unclear. Here, we report that PKD2 forms a protein complex with BECN1 (beclin 1), a key protein required for the formation of autophagic vacuoles, by acting as a scaffold that interacts with several co-modulators via its coiled-coil domain (CCD). Our data identified a physical and functional interaction between PKD2 and BECN1, which depends on one out of two CCD domains (CC1), located in the carboxy-terminal tail of PKD2. In addition, depletion of intracellular Ca2+ with BAPTA-AM not only blunted starvation-induced autophagy but also disrupted the PKD2-BECN1 complex. Consistently, PKD2 overexpression triggered autophagy by increasing its interaction with BECN1, while overexpression of PKD2D509V, a Ca2+ channel activity-deficient mutant, did not induce autophagy and manifested diminished interaction with BECN1. Our findings show that the PKD2-BECN1 complex is required for the induction of autophagy, and its formation depends on the presence of the CC1 domain of PKD2 and on intracellular Ca2+ mobilization by PKD2. These results provide new insights regarding the molecular mechanisms by which PKD2 controls autophagy. Abbreviations: ADPKD: autosomal dominant polycystic kidney disease; ATG: autophagy-related; ATG14/ATG14L: autophagy related 14; Baf A1: bafilomycin A1; BCL2/Bcl-2: BCL2 apoptosis regulator; BCL2L1/BCL-XL: BCL2 like 1; BECN1: beclin 1; CCD: coiled-coil domain; EBSS: Earle’s balanced salt solution; ER: endoplasmic reticulum; GAPDH: glyceraldehyde-3-phosphate dehydrogenase; GFP: green fluorescent protein; GOLGA2/GM130: golgin A2; GST: glutathione s-transferase; LAMP1: lysosomal associated membrane protein 1; MAP1LC3/LC3: microtubule associated protein 1 light chain 3; MTORC1: mechanistic target of rapamycin kinase complex 1; NBR1: NBR1 autophagy cargo receptor; PIK3C3/VPS34: phosphatidylinositol 3-kinase catalytic subunit type 3; PKD2/PC2: polycystin 2, transient receptor potential cation channel; RTN4/NOGO: reticulon 4; RUBCN/RUBICON: rubicon autophagy regulator; SQSTM1/p62: sequestosome 1; UVRAG: UV radiation resistance associated; WIPI2: WD repeat domain, phosphoinositide interacting 2.

AB - Macroautophagy/autophagy is an intracellular process involved in the breakdown of macromolecules and organelles. Recent studies have shown that PKD2/PC2/TRPP2 (polycystin 2, transient receptor potential cation channel), a nonselective cation channel permeable to Ca2+ that belongs to the family of transient receptor potential channels, is required for autophagy in multiple cell types by a mechanism that remains unclear. Here, we report that PKD2 forms a protein complex with BECN1 (beclin 1), a key protein required for the formation of autophagic vacuoles, by acting as a scaffold that interacts with several co-modulators via its coiled-coil domain (CCD). Our data identified a physical and functional interaction between PKD2 and BECN1, which depends on one out of two CCD domains (CC1), located in the carboxy-terminal tail of PKD2. In addition, depletion of intracellular Ca2+ with BAPTA-AM not only blunted starvation-induced autophagy but also disrupted the PKD2-BECN1 complex. Consistently, PKD2 overexpression triggered autophagy by increasing its interaction with BECN1, while overexpression of PKD2D509V, a Ca2+ channel activity-deficient mutant, did not induce autophagy and manifested diminished interaction with BECN1. Our findings show that the PKD2-BECN1 complex is required for the induction of autophagy, and its formation depends on the presence of the CC1 domain of PKD2 and on intracellular Ca2+ mobilization by PKD2. These results provide new insights regarding the molecular mechanisms by which PKD2 controls autophagy. Abbreviations: ADPKD: autosomal dominant polycystic kidney disease; ATG: autophagy-related; ATG14/ATG14L: autophagy related 14; Baf A1: bafilomycin A1; BCL2/Bcl-2: BCL2 apoptosis regulator; BCL2L1/BCL-XL: BCL2 like 1; BECN1: beclin 1; CCD: coiled-coil domain; EBSS: Earle’s balanced salt solution; ER: endoplasmic reticulum; GAPDH: glyceraldehyde-3-phosphate dehydrogenase; GFP: green fluorescent protein; GOLGA2/GM130: golgin A2; GST: glutathione s-transferase; LAMP1: lysosomal associated membrane protein 1; MAP1LC3/LC3: microtubule associated protein 1 light chain 3; MTORC1: mechanistic target of rapamycin kinase complex 1; NBR1: NBR1 autophagy cargo receptor; PIK3C3/VPS34: phosphatidylinositol 3-kinase catalytic subunit type 3; PKD2/PC2: polycystin 2, transient receptor potential cation channel; RTN4/NOGO: reticulon 4; RUBCN/RUBICON: rubicon autophagy regulator; SQSTM1/p62: sequestosome 1; UVRAG: UV radiation resistance associated; WIPI2: WD repeat domain, phosphoinositide interacting 2.

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PKD2/polycystin-2 induces autophagy by forming a complex with BECN1

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