HIF1A is Overexpressed in Medulloblastoma and its Inhibition Reduces Proliferation and Increases EPAS1 and ATG16L1 Methylation

Gustavo Alencastro Veiga Cruzeiro; Maristella Bergamo Dos Reis; Vanessa Silva Silveira; Regia Caroline Peixoto Lira; Carlos Gilberto Carlotti; Luciano Neder; Ricardo Santos Oliveira; Jose Andres Yunes; Silvia Regina Brandalise; Simone Aguiar; Agda Karina Eterovic; Luiz Gonzaga Tone; Carlos Alberto Scrideli; Elvis Terci Valera

doi:10.2174/1568009617666170315162525

HIF1A is Overexpressed in Medulloblastoma and its Inhibition Reduces Proliferation and Increases EPAS1 and ATG16L1 Methylation

Gustavo Alencastro Veiga Cruzeiro, Maristella Bergamo Dos Reis, Vanessa Silva Silveira, Regia Caroline Peixoto Lira, Carlos Gilberto Carlotti, Luciano Neder, Ricardo Santos Oliveira, Jose Andres Yunes, Silvia Regina Brandalise, Simone Aguiar, Agda Karina Eterovic, Luiz Gonzaga Tone, Carlos Alberto Scrideli, Elvis Terci Valera

Systems Biology

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

BACKGROUND: Genetic and epigenetic modifications are closely related to tumor initiation and progression and can provide guidance for understanding tumor functioning, potentially leading to the discovery of new therapies. Studies have associated hypoxia-related genes to tumor progression and chemo/radioresistance in brain tumors. Information on the expression profile of hypoxiarelated genes in pediatric medulloblastoma, although scarce, may reveal relevant information that could support treatment decisions. OBJECTIVE: Our study focused on evaluation the of CA9, CA12, HIF1A, EPAS1, SCL2A1 and VEGF genes in 41 pediatric fresh-frozen medulloblastoma sample. Additionally, we analyzed the effect of hypoxia and normoxia in the pediatric medulloblastoma cell-line UW402. Furthermore, we assessed the effects of HIF1A knockdown in cell-proliferation and methylation levels of genes related to hypoxia, apoptosis and autophagy. METHOD: qPCR was performed to evaluate mRNA levels, and Western blot to confirm HIF1A silencing in both patient samples and cell line. Pyrosequencing was performed to asses the methylation levels after HIF1A knockdown in the UW402 cell line. RESULTS: A higher HIF1A mRNA level was observed in MB patients when compared to the cerebellum (non-tumor match). In UW402 MB cell-line, chemically induced hypoxic resulted in an increase of mRNA levels of HIF1A, VEGF, SCL2A1 and CA9 genes. Additionally, HIF1A knockdown induced a decrease in the expression of hypoxia related genes and a decrease of 30% in cell proliferation was also observed. Also, a significant increase in the methylation of ATG16L1 promoter and decrease in the methylation of EPAS1 promoter were observed after HIF1A knockdown. CONCLUSION: HIF1A knockdown in medulloblastoma cells lead to decreased cellular proliferation, suggesting that HIF1A can be a potential therapeutic target to be explored in the medulloblastoma. However, the mechanisms behind HIF1A protein stabilization and function are very complex and more data need to be generated to potentially use HIF1A as a therapeutical target.

Original language	English (US)
Pages (from-to)	287-294
Number of pages	8
Journal	Current cancer drug targets
Volume	18
Issue number	3
DOIs	https://doi.org/10.2174/1568009617666170315162525
State	Published - 2018

Keywords

ATG16L1
EPAS1
HIF1A
epigenetics
hypoxia
medulloblastoma.

ASJC Scopus subject areas

Oncology
Pharmacology
Drug Discovery
Cancer Research

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10.2174/1568009617666170315162525

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Cruzeiro, G. A. V., Dos Reis, M. B., Silveira, V. S., Lira, R. C. P., Carlotti, C. G., Neder, L., Oliveira, R. S., Yunes, J. A., Brandalise, S. R., Aguiar, S., Eterovic, A. K., Tone, L. G., Scrideli, C. A., & Valera, E. T. (2018). HIF1A is Overexpressed in Medulloblastoma and its Inhibition Reduces Proliferation and Increases EPAS1 and ATG16L1 Methylation. Current cancer drug targets, 18(3), 287-294. https://doi.org/10.2174/1568009617666170315162525

Cruzeiro, GAV, Dos Reis, MB, Silveira, VS, Lira, RCP, Carlotti, CG, Neder, L, Oliveira, RS, Yunes, JA, Brandalise, SR, Aguiar, S, Eterovic, AK, Tone, LG, Scrideli, CA & Valera, ET 2018, 'HIF1A is Overexpressed in Medulloblastoma and its Inhibition Reduces Proliferation and Increases EPAS1 and ATG16L1 Methylation', Current cancer drug targets, vol. 18, no. 3, pp. 287-294. https://doi.org/10.2174/1568009617666170315162525

@article{7f504cd0b0034ad8add756feb6c02f5a,

title = "HIF1A is Overexpressed in Medulloblastoma and its Inhibition Reduces Proliferation and Increases EPAS1 and ATG16L1 Methylation",

abstract = "BACKGROUND: Genetic and epigenetic modifications are closely related to tumor initiation and progression and can provide guidance for understanding tumor functioning, potentially leading to the discovery of new therapies. Studies have associated hypoxia-related genes to tumor progression and chemo/radioresistance in brain tumors. Information on the expression profile of hypoxiarelated genes in pediatric medulloblastoma, although scarce, may reveal relevant information that could support treatment decisions. OBJECTIVE: Our study focused on evaluation the of CA9, CA12, HIF1A, EPAS1, SCL2A1 and VEGF genes in 41 pediatric fresh-frozen medulloblastoma sample. Additionally, we analyzed the effect of hypoxia and normoxia in the pediatric medulloblastoma cell-line UW402. Furthermore, we assessed the effects of HIF1A knockdown in cell-proliferation and methylation levels of genes related to hypoxia, apoptosis and autophagy. METHOD: qPCR was performed to evaluate mRNA levels, and Western blot to confirm HIF1A silencing in both patient samples and cell line. Pyrosequencing was performed to asses the methylation levels after HIF1A knockdown in the UW402 cell line. RESULTS: A higher HIF1A mRNA level was observed in MB patients when compared to the cerebellum (non-tumor match). In UW402 MB cell-line, chemically induced hypoxic resulted in an increase of mRNA levels of HIF1A, VEGF, SCL2A1 and CA9 genes. Additionally, HIF1A knockdown induced a decrease in the expression of hypoxia related genes and a decrease of 30% in cell proliferation was also observed. Also, a significant increase in the methylation of ATG16L1 promoter and decrease in the methylation of EPAS1 promoter were observed after HIF1A knockdown. CONCLUSION: HIF1A knockdown in medulloblastoma cells lead to decreased cellular proliferation, suggesting that HIF1A can be a potential therapeutic target to be explored in the medulloblastoma. However, the mechanisms behind HIF1A protein stabilization and function are very complex and more data need to be generated to potentially use HIF1A as a therapeutical target.",

keywords = "ATG16L1, EPAS1, HIF1A, epigenetics, hypoxia, medulloblastoma.",

author = "Cruzeiro, {Gustavo Alencastro Veiga} and {Dos Reis}, {Maristella Bergamo} and Silveira, {Vanessa Silva} and Lira, {Regia Caroline Peixoto} and Carlotti, {Carlos Gilberto} and Luciano Neder and Oliveira, {Ricardo Santos} and Yunes, {Jose Andres} and Brandalise, {Silvia Regina} and Simone Aguiar and Eterovic, {Agda Karina} and Tone, {Luiz Gonzaga} and Scrideli, {Carlos Alberto} and Valera, {Elvis Terci}",

note = "Publisher Copyright: Copyright{\textcopyright} Bentham Science Publishers; For any queries, please email at epub@benthamscience.org. Copyright: This record is sourced from MEDLINE/PubMed, a database of the U.S. National Library of Medicine",

year = "2018",

doi = "10.2174/1568009617666170315162525",

language = "English (US)",

volume = "18",

pages = "287--294",

journal = "Current cancer drug targets",

issn = "1568-0096",

publisher = "Bentham Science Publishers B.V.",

number = "3",

}

TY - JOUR

T1 - HIF1A is Overexpressed in Medulloblastoma and its Inhibition Reduces Proliferation and Increases EPAS1 and ATG16L1 Methylation

AU - Cruzeiro, Gustavo Alencastro Veiga

AU - Dos Reis, Maristella Bergamo

AU - Silveira, Vanessa Silva

AU - Lira, Regia Caroline Peixoto

AU - Carlotti, Carlos Gilberto

AU - Neder, Luciano

AU - Oliveira, Ricardo Santos

AU - Yunes, Jose Andres

AU - Brandalise, Silvia Regina

AU - Aguiar, Simone

AU - Eterovic, Agda Karina

AU - Tone, Luiz Gonzaga

AU - Scrideli, Carlos Alberto

AU - Valera, Elvis Terci

N1 - Publisher Copyright: Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org. Copyright: This record is sourced from MEDLINE/PubMed, a database of the U.S. National Library of Medicine

PY - 2018

Y1 - 2018

N2 - BACKGROUND: Genetic and epigenetic modifications are closely related to tumor initiation and progression and can provide guidance for understanding tumor functioning, potentially leading to the discovery of new therapies. Studies have associated hypoxia-related genes to tumor progression and chemo/radioresistance in brain tumors. Information on the expression profile of hypoxiarelated genes in pediatric medulloblastoma, although scarce, may reveal relevant information that could support treatment decisions. OBJECTIVE: Our study focused on evaluation the of CA9, CA12, HIF1A, EPAS1, SCL2A1 and VEGF genes in 41 pediatric fresh-frozen medulloblastoma sample. Additionally, we analyzed the effect of hypoxia and normoxia in the pediatric medulloblastoma cell-line UW402. Furthermore, we assessed the effects of HIF1A knockdown in cell-proliferation and methylation levels of genes related to hypoxia, apoptosis and autophagy. METHOD: qPCR was performed to evaluate mRNA levels, and Western blot to confirm HIF1A silencing in both patient samples and cell line. Pyrosequencing was performed to asses the methylation levels after HIF1A knockdown in the UW402 cell line. RESULTS: A higher HIF1A mRNA level was observed in MB patients when compared to the cerebellum (non-tumor match). In UW402 MB cell-line, chemically induced hypoxic resulted in an increase of mRNA levels of HIF1A, VEGF, SCL2A1 and CA9 genes. Additionally, HIF1A knockdown induced a decrease in the expression of hypoxia related genes and a decrease of 30% in cell proliferation was also observed. Also, a significant increase in the methylation of ATG16L1 promoter and decrease in the methylation of EPAS1 promoter were observed after HIF1A knockdown. CONCLUSION: HIF1A knockdown in medulloblastoma cells lead to decreased cellular proliferation, suggesting that HIF1A can be a potential therapeutic target to be explored in the medulloblastoma. However, the mechanisms behind HIF1A protein stabilization and function are very complex and more data need to be generated to potentially use HIF1A as a therapeutical target.

AB - BACKGROUND: Genetic and epigenetic modifications are closely related to tumor initiation and progression and can provide guidance for understanding tumor functioning, potentially leading to the discovery of new therapies. Studies have associated hypoxia-related genes to tumor progression and chemo/radioresistance in brain tumors. Information on the expression profile of hypoxiarelated genes in pediatric medulloblastoma, although scarce, may reveal relevant information that could support treatment decisions. OBJECTIVE: Our study focused on evaluation the of CA9, CA12, HIF1A, EPAS1, SCL2A1 and VEGF genes in 41 pediatric fresh-frozen medulloblastoma sample. Additionally, we analyzed the effect of hypoxia and normoxia in the pediatric medulloblastoma cell-line UW402. Furthermore, we assessed the effects of HIF1A knockdown in cell-proliferation and methylation levels of genes related to hypoxia, apoptosis and autophagy. METHOD: qPCR was performed to evaluate mRNA levels, and Western blot to confirm HIF1A silencing in both patient samples and cell line. Pyrosequencing was performed to asses the methylation levels after HIF1A knockdown in the UW402 cell line. RESULTS: A higher HIF1A mRNA level was observed in MB patients when compared to the cerebellum (non-tumor match). In UW402 MB cell-line, chemically induced hypoxic resulted in an increase of mRNA levels of HIF1A, VEGF, SCL2A1 and CA9 genes. Additionally, HIF1A knockdown induced a decrease in the expression of hypoxia related genes and a decrease of 30% in cell proliferation was also observed. Also, a significant increase in the methylation of ATG16L1 promoter and decrease in the methylation of EPAS1 promoter were observed after HIF1A knockdown. CONCLUSION: HIF1A knockdown in medulloblastoma cells lead to decreased cellular proliferation, suggesting that HIF1A can be a potential therapeutic target to be explored in the medulloblastoma. However, the mechanisms behind HIF1A protein stabilization and function are very complex and more data need to be generated to potentially use HIF1A as a therapeutical target.

KW - ATG16L1

KW - EPAS1

KW - HIF1A

KW - epigenetics

KW - hypoxia

KW - medulloblastoma.

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DO - 10.2174/1568009617666170315162525

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AN - SCOPUS:85049156308

SN - 1568-0096

VL - 18

SP - 287

EP - 294

JO - Current cancer drug targets

JF - Current cancer drug targets

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ER -

HIF1A is Overexpressed in Medulloblastoma and its Inhibition Reduces Proliferation and Increases EPAS1 and ATG16L1 Methylation

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