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Condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain

ICA512/PTPRN is a receptor tyrosine‐like phosphatase implicated in the biogenesis and turnover of the insulin secretory granules (SGs) in pancreatic islet beta cells. Previously we found biophysical evidence that its luminal RESP18 homology domain (RESP18HD) forms a biomolecular condensate and inter...

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Autores principales: Toledo, Pamela L., Vazquez, Diego S., Gianotti, Alejo R., Abate, Milagros B., Wegbrod, Carolin, Torkko, Juha M., Solimena, Michele, Ermácora, Mario R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley & Sons, Inc. 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10201709/
https://www.ncbi.nlm.nih.gov/pubmed/37159024
http://dx.doi.org/10.1002/pro.4649
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author Toledo, Pamela L.
Vazquez, Diego S.
Gianotti, Alejo R.
Abate, Milagros B.
Wegbrod, Carolin
Torkko, Juha M.
Solimena, Michele
Ermácora, Mario R.
author_facet Toledo, Pamela L.
Vazquez, Diego S.
Gianotti, Alejo R.
Abate, Milagros B.
Wegbrod, Carolin
Torkko, Juha M.
Solimena, Michele
Ermácora, Mario R.
author_sort Toledo, Pamela L.
collection PubMed
description ICA512/PTPRN is a receptor tyrosine‐like phosphatase implicated in the biogenesis and turnover of the insulin secretory granules (SGs) in pancreatic islet beta cells. Previously we found biophysical evidence that its luminal RESP18 homology domain (RESP18HD) forms a biomolecular condensate and interacts with insulin in vitro at close‐to‐neutral pH, that is, in conditions resembling those present in the early secretory pathway. Here we provide further evidence for the relevance of these findings by showing that at pH 6.8 RESP18HD interacts also with proinsulin—the physiological insulin precursor found in the early secretory pathway and the major luminal cargo of β‐cell nascent SGs. Our light scattering analyses indicate that RESP18HD and proinsulin, but also insulin, populate nanocondensates ranging in size from 15 to 300 nm and 10e2 to 10e6 molecules. Co‐condensation of RESP18HD with proinsulin/insulin transforms the initial nanocondensates into microcondensates (size >1 μm). The intrinsic tendency of proinsulin to self‐condensate implies that, in the ER, a chaperoning mechanism must arrest its spontaneous intermolecular condensation to allow for proper intramolecular folding. These data further suggest that proinsulin is an early driver of insulin SG biogenesis, in a process in which its co‐condensation with RESP18HD participates in their phase separation from other secretory proteins in transit through the same compartments but destined to other routes. Through the cytosolic tail of ICA512, proinsulin co‐condensation with RESP18HD may further orchestrate the recruitment of cytosolic factors involved in membrane budding and fission of transport vesicles and nascent SGs.
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spelling pubmed-102017092023-06-01 Condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain Toledo, Pamela L. Vazquez, Diego S. Gianotti, Alejo R. Abate, Milagros B. Wegbrod, Carolin Torkko, Juha M. Solimena, Michele Ermácora, Mario R. Protein Sci Full‐length Papers ICA512/PTPRN is a receptor tyrosine‐like phosphatase implicated in the biogenesis and turnover of the insulin secretory granules (SGs) in pancreatic islet beta cells. Previously we found biophysical evidence that its luminal RESP18 homology domain (RESP18HD) forms a biomolecular condensate and interacts with insulin in vitro at close‐to‐neutral pH, that is, in conditions resembling those present in the early secretory pathway. Here we provide further evidence for the relevance of these findings by showing that at pH 6.8 RESP18HD interacts also with proinsulin—the physiological insulin precursor found in the early secretory pathway and the major luminal cargo of β‐cell nascent SGs. Our light scattering analyses indicate that RESP18HD and proinsulin, but also insulin, populate nanocondensates ranging in size from 15 to 300 nm and 10e2 to 10e6 molecules. Co‐condensation of RESP18HD with proinsulin/insulin transforms the initial nanocondensates into microcondensates (size >1 μm). The intrinsic tendency of proinsulin to self‐condensate implies that, in the ER, a chaperoning mechanism must arrest its spontaneous intermolecular condensation to allow for proper intramolecular folding. These data further suggest that proinsulin is an early driver of insulin SG biogenesis, in a process in which its co‐condensation with RESP18HD participates in their phase separation from other secretory proteins in transit through the same compartments but destined to other routes. Through the cytosolic tail of ICA512, proinsulin co‐condensation with RESP18HD may further orchestrate the recruitment of cytosolic factors involved in membrane budding and fission of transport vesicles and nascent SGs. John Wiley & Sons, Inc. 2023-06-01 /pmc/articles/PMC10201709/ /pubmed/37159024 http://dx.doi.org/10.1002/pro.4649 Text en © 2023 The Authors. Protein Science published by Wiley Periodicals LLC on behalf of The Protein Society. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Full‐length Papers
Toledo, Pamela L.
Vazquez, Diego S.
Gianotti, Alejo R.
Abate, Milagros B.
Wegbrod, Carolin
Torkko, Juha M.
Solimena, Michele
Ermácora, Mario R.
Condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain
title Condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain
title_full Condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain
title_fullStr Condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain
title_full_unstemmed Condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain
title_short Condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain
title_sort condensation of the β‐cell secretory granule luminal cargoes pro/insulin and ica512 resp18 homology domain
topic Full‐length Papers
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10201709/
https://www.ncbi.nlm.nih.gov/pubmed/37159024
http://dx.doi.org/10.1002/pro.4649
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