SMARCB1 regulates the hypoxic stress response in sickle cell trait

Renal medullary carcinoma (RMC) is an aggressive kidney cancer that almost exclusively develops in individuals with sickle cell trait (SCT) and is always characterized by loss of the tumor suppressor SMARCB1. Because renal ischemia induced by red blood cell sickling exacerbates chronic renal medulla...

Descripción completa

Detalles Bibliográficos
Autores principales: Soeung, Melinda, Perelli, Luigi, Chen, Ziheng, Dondossola, Eleonora, Ho, I-Lin, Carbone, Federica, Zhang, Li, Khan, Hania, Le, Courtney N., Zhu, Cihui, Peoples, Michael D., Feng, Ningping, Jiang, Shan, Zacharias, Niki Millward, Minelli, Rosalba, Shapiro, Daniel D., Deem, Angela K., Gao, Sisi, Cheng, Emily H., Lucchetti, Donatella, Walker, Cheryl L., Carugo, Alessandro, Giuliani, Virginia, Heffernan, Timothy P., Viale, Andrea, Tannir, Nizar M., Draetta, Giulio F., Msaouel, Pavlos, Genovese, Giannicola
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2023
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10214195/
https://www.ncbi.nlm.nih.gov/pubmed/37186844
http://dx.doi.org/10.1073/pnas.2209639120
_version_ 1785047787032805376
author Soeung, Melinda
Perelli, Luigi
Chen, Ziheng
Dondossola, Eleonora
Ho, I-Lin
Carbone, Federica
Zhang, Li
Khan, Hania
Le, Courtney N.
Zhu, Cihui
Peoples, Michael D.
Feng, Ningping
Jiang, Shan
Zacharias, Niki Millward
Minelli, Rosalba
Shapiro, Daniel D.
Deem, Angela K.
Gao, Sisi
Cheng, Emily H.
Lucchetti, Donatella
Walker, Cheryl L.
Carugo, Alessandro
Giuliani, Virginia
Heffernan, Timothy P.
Viale, Andrea
Tannir, Nizar M.
Draetta, Giulio F.
Msaouel, Pavlos
Genovese, Giannicola
author_facet Soeung, Melinda
Perelli, Luigi
Chen, Ziheng
Dondossola, Eleonora
Ho, I-Lin
Carbone, Federica
Zhang, Li
Khan, Hania
Le, Courtney N.
Zhu, Cihui
Peoples, Michael D.
Feng, Ningping
Jiang, Shan
Zacharias, Niki Millward
Minelli, Rosalba
Shapiro, Daniel D.
Deem, Angela K.
Gao, Sisi
Cheng, Emily H.
Lucchetti, Donatella
Walker, Cheryl L.
Carugo, Alessandro
Giuliani, Virginia
Heffernan, Timothy P.
Viale, Andrea
Tannir, Nizar M.
Draetta, Giulio F.
Msaouel, Pavlos
Genovese, Giannicola
author_sort Soeung, Melinda
collection PubMed
description Renal medullary carcinoma (RMC) is an aggressive kidney cancer that almost exclusively develops in individuals with sickle cell trait (SCT) and is always characterized by loss of the tumor suppressor SMARCB1. Because renal ischemia induced by red blood cell sickling exacerbates chronic renal medullary hypoxia in vivo, we investigated whether the loss of SMARCB1 confers a survival advantage under the setting of SCT. Hypoxic stress, which naturally occurs within the renal medulla, is elevated under the setting of SCT. Our findings showed that hypoxia-induced SMARCB1 degradation protected renal cells from hypoxic stress. SMARCB1 wild-type renal tumors exhibited lower levels of SMARCB1 and more aggressive growth in mice harboring the SCT mutation in human hemoglobin A (HbA) than in control mice harboring wild-type human HbA. Consistent with established clinical observations, SMARCB1-null renal tumors were refractory to hypoxia-inducing therapeutic inhibition of angiogenesis. Further, reconstitution of SMARCB1 restored renal tumor sensitivity to hypoxic stress in vitro and in vivo. Together, our results demonstrate a physiological role for SMARCB1 degradation in response to hypoxic stress, connect the renal medullary hypoxia induced by SCT with an increased risk of SMARCB1-negative RMC, and shed light into the mechanisms mediating the resistance of SMARCB1-null renal tumors against angiogenesis inhibition therapies.
format Online
Article
Text
id pubmed-10214195
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher National Academy of Sciences
record_format MEDLINE/PubMed
spelling pubmed-102141952023-05-27 SMARCB1 regulates the hypoxic stress response in sickle cell trait Soeung, Melinda Perelli, Luigi Chen, Ziheng Dondossola, Eleonora Ho, I-Lin Carbone, Federica Zhang, Li Khan, Hania Le, Courtney N. Zhu, Cihui Peoples, Michael D. Feng, Ningping Jiang, Shan Zacharias, Niki Millward Minelli, Rosalba Shapiro, Daniel D. Deem, Angela K. Gao, Sisi Cheng, Emily H. Lucchetti, Donatella Walker, Cheryl L. Carugo, Alessandro Giuliani, Virginia Heffernan, Timothy P. Viale, Andrea Tannir, Nizar M. Draetta, Giulio F. Msaouel, Pavlos Genovese, Giannicola Proc Natl Acad Sci U S A Biological Sciences Renal medullary carcinoma (RMC) is an aggressive kidney cancer that almost exclusively develops in individuals with sickle cell trait (SCT) and is always characterized by loss of the tumor suppressor SMARCB1. Because renal ischemia induced by red blood cell sickling exacerbates chronic renal medullary hypoxia in vivo, we investigated whether the loss of SMARCB1 confers a survival advantage under the setting of SCT. Hypoxic stress, which naturally occurs within the renal medulla, is elevated under the setting of SCT. Our findings showed that hypoxia-induced SMARCB1 degradation protected renal cells from hypoxic stress. SMARCB1 wild-type renal tumors exhibited lower levels of SMARCB1 and more aggressive growth in mice harboring the SCT mutation in human hemoglobin A (HbA) than in control mice harboring wild-type human HbA. Consistent with established clinical observations, SMARCB1-null renal tumors were refractory to hypoxia-inducing therapeutic inhibition of angiogenesis. Further, reconstitution of SMARCB1 restored renal tumor sensitivity to hypoxic stress in vitro and in vivo. Together, our results demonstrate a physiological role for SMARCB1 degradation in response to hypoxic stress, connect the renal medullary hypoxia induced by SCT with an increased risk of SMARCB1-negative RMC, and shed light into the mechanisms mediating the resistance of SMARCB1-null renal tumors against angiogenesis inhibition therapies. National Academy of Sciences 2023-05-15 2023-05-23 /pmc/articles/PMC10214195/ /pubmed/37186844 http://dx.doi.org/10.1073/pnas.2209639120 Text en Copyright © 2023 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Soeung, Melinda
Perelli, Luigi
Chen, Ziheng
Dondossola, Eleonora
Ho, I-Lin
Carbone, Federica
Zhang, Li
Khan, Hania
Le, Courtney N.
Zhu, Cihui
Peoples, Michael D.
Feng, Ningping
Jiang, Shan
Zacharias, Niki Millward
Minelli, Rosalba
Shapiro, Daniel D.
Deem, Angela K.
Gao, Sisi
Cheng, Emily H.
Lucchetti, Donatella
Walker, Cheryl L.
Carugo, Alessandro
Giuliani, Virginia
Heffernan, Timothy P.
Viale, Andrea
Tannir, Nizar M.
Draetta, Giulio F.
Msaouel, Pavlos
Genovese, Giannicola
SMARCB1 regulates the hypoxic stress response in sickle cell trait
title SMARCB1 regulates the hypoxic stress response in sickle cell trait
title_full SMARCB1 regulates the hypoxic stress response in sickle cell trait
title_fullStr SMARCB1 regulates the hypoxic stress response in sickle cell trait
title_full_unstemmed SMARCB1 regulates the hypoxic stress response in sickle cell trait
title_short SMARCB1 regulates the hypoxic stress response in sickle cell trait
title_sort smarcb1 regulates the hypoxic stress response in sickle cell trait
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10214195/
https://www.ncbi.nlm.nih.gov/pubmed/37186844
http://dx.doi.org/10.1073/pnas.2209639120
work_keys_str_mv AT soeungmelinda smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT perelliluigi smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT chenziheng smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT dondossolaeleonora smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT hoilin smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT carbonefederica smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT zhangli smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT khanhania smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT lecourtneyn smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT zhucihui smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT peoplesmichaeld smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT fengningping smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT jiangshan smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT zachariasnikimillward smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT minellirosalba smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT shapirodanield smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT deemangelak smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT gaosisi smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT chengemilyh smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT lucchettidonatella smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT walkercheryll smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT carugoalessandro smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT giulianivirginia smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT heffernantimothyp smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT vialeandrea smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT tannirnizarm smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT draettagiuliof smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT msaouelpavlos smarcb1regulatesthehypoxicstressresponseinsicklecelltrait
AT genovesegiannicola smarcb1regulatesthehypoxicstressresponseinsicklecelltrait

Ejemplares similares