miRNA-211 maintains metabolic homeostasis in medulloblastoma through its target gene long-chain acyl-CoA synthetase 4

Menglang Yuan; Iqbal Mahmud; Keisuke Katsushima; Kandarp Joshi; Olivier Saulnier; Rudramani Pokhrel; Bongyong Lee; Wathsala Liyanage; Haritha Kunhiraman; Stacie Stapleton; Ignacio Gonzalez-Gomez; Rangaramanujam M. Kannan; Tanja Eisemann; Elayaraja Kolanthai; Sudipta Seal; Timothy J. Garrett; Saed Abbasi; Kimberly Bockley; Justin Hanes; Prem Chapagain; George Jallo; Robert J. Wechsler-Reya; Michael D. Taylor; Charles G. Eberhart; Animesh Ray; Ranjan J. Perera

doi:10.1186/s40478-023-01684-w

miRNA-211 maintains metabolic homeostasis in medulloblastoma through its target gene long-chain acyl-CoA synthetase 4

Menglang Yuan, Iqbal Mahmud, Keisuke Katsushima, Kandarp Joshi, Olivier Saulnier, Rudramani Pokhrel, Bongyong Lee, Wathsala Liyanage, Haritha Kunhiraman, Stacie Stapleton, Ignacio Gonzalez-Gomez, Rangaramanujam M. Kannan, Tanja Eisemann, Elayaraja Kolanthai, Sudipta Seal, Timothy J. Garrett, Saed Abbasi, Kimberly Bockley, Justin Hanes, Prem ChapagainGeorge Jallo, Robert J. Wechsler-Reya, Michael D. Taylor, Charles G. Eberhart, Animesh Ray, Ranjan J. Perera

Bioinformatics & Computational Biology

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

Abstract

The prognosis of childhood medulloblastoma (MB) is often poor, and it usually requires aggressive therapy that adversely affects quality of life. microRNA-211 (miR-211) was previously identified as an important regulator of cells that descend from neural cells. Since medulloblastomas primarily affect cells with similar ontogeny, we investigated the role and mechanism of miR-211 in MB. Here we showed that miR-211 expression was highly downregulated in cell lines, PDXs, and clinical samples of different MB subgroups (SHH, Group 3, and Group 4) compared to normal cerebellum. miR-211 gene was ectopically expressed in transgenic cells from MB subgroups, and they were subjected to molecular and phenotypic investigations. Monoclonal cells stably expressing miR-211 were injected into the mouse cerebellum. miR-211 forced expression acts as a tumor suppressor in MB both in vitro and in vivo, attenuating growth, promoting apoptosis, and inhibiting invasion. In support of emerging regulatory roles of metabolism in various forms of cancer, we identified the acyl-CoA synthetase long-chain family member (ACSL4) as a direct miR-211 target. Furthermore, lipid nanoparticle-coated, dendrimer-coated, and cerium oxide-coated miR-211 nanoparticles were applied to deliver synthetic miR-211 into MB cell lines and cellular responses were assayed. Synthesizing nanoparticle-miR-211 conjugates can suppress MB cell viability and invasion in vitro. Our findings reveal miR-211 as a tumor suppressor and a potential therapeutic agent in MB. This proof-of-concept paves the way for further pre-clinical and clinical development. Graphical Abstract: [Figure not available: see fulltext.].

Original language	English (US)
Article number	203
Journal	Acta Neuropathologica Communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1186/s40478-023-01684-w
State	Published - Dec 2023

Keywords

Medulloblastoma
Metabolism
miRNA-211
Nanoparticles
Therapeutics

ASJC Scopus subject areas

Pathology and Forensic Medicine
Clinical Neurology
Cellular and Molecular Neuroscience

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Yuan, M., Mahmud, I., Katsushima, K., Joshi, K., Saulnier, O., Pokhrel, R., Lee, B., Liyanage, W., Kunhiraman, H., Stapleton, S., Gonzalez-Gomez, I., Kannan, R. M., Eisemann, T., Kolanthai, E., Seal, S., Garrett, T. J., Abbasi, S., Bockley, K., Hanes, J., ... Perera, R. J. (2023). miRNA-211 maintains metabolic homeostasis in medulloblastoma through its target gene long-chain acyl-CoA synthetase 4. Acta Neuropathologica Communications, 11(1), Article 203. https://doi.org/10.1186/s40478-023-01684-w

Yuan, M, Mahmud, I, Katsushima, K, Joshi, K, Saulnier, O, Pokhrel, R, Lee, B, Liyanage, W, Kunhiraman, H, Stapleton, S, Gonzalez-Gomez, I, Kannan, RM, Eisemann, T, Kolanthai, E, Seal, S, Garrett, TJ, Abbasi, S, Bockley, K, Hanes, J, Chapagain, P, Jallo, G, Wechsler-Reya, RJ, Taylor, MD, Eberhart, CG, Ray, A & Perera, RJ 2023, 'miRNA-211 maintains metabolic homeostasis in medulloblastoma through its target gene long-chain acyl-CoA synthetase 4', Acta Neuropathologica Communications, vol. 11, no. 1, 203. https://doi.org/10.1186/s40478-023-01684-w

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title = "miRNA-211 maintains metabolic homeostasis in medulloblastoma through its target gene long-chain acyl-CoA synthetase 4",

abstract = "The prognosis of childhood medulloblastoma (MB) is often poor, and it usually requires aggressive therapy that adversely affects quality of life. microRNA-211 (miR-211) was previously identified as an important regulator of cells that descend from neural cells. Since medulloblastomas primarily affect cells with similar ontogeny, we investigated the role and mechanism of miR-211 in MB. Here we showed that miR-211 expression was highly downregulated in cell lines, PDXs, and clinical samples of different MB subgroups (SHH, Group 3, and Group 4) compared to normal cerebellum. miR-211 gene was ectopically expressed in transgenic cells from MB subgroups, and they were subjected to molecular and phenotypic investigations. Monoclonal cells stably expressing miR-211 were injected into the mouse cerebellum. miR-211 forced expression acts as a tumor suppressor in MB both in vitro and in vivo, attenuating growth, promoting apoptosis, and inhibiting invasion. In support of emerging regulatory roles of metabolism in various forms of cancer, we identified the acyl-CoA synthetase long-chain family member (ACSL4) as a direct miR-211 target. Furthermore, lipid nanoparticle-coated, dendrimer-coated, and cerium oxide-coated miR-211 nanoparticles were applied to deliver synthetic miR-211 into MB cell lines and cellular responses were assayed. Synthesizing nanoparticle-miR-211 conjugates can suppress MB cell viability and invasion in vitro. Our findings reveal miR-211 as a tumor suppressor and a potential therapeutic agent in MB. This proof-of-concept paves the way for further pre-clinical and clinical development. Graphical Abstract: [Figure not available: see fulltext.].",

keywords = "Medulloblastoma, Metabolism, miRNA-211, Nanoparticles, Therapeutics",

author = "Menglang Yuan and Iqbal Mahmud and Keisuke Katsushima and Kandarp Joshi and Olivier Saulnier and Rudramani Pokhrel and Bongyong Lee and Wathsala Liyanage and Haritha Kunhiraman and Stacie Stapleton and Ignacio Gonzalez-Gomez and Kannan, {Rangaramanujam M.} and Tanja Eisemann and Elayaraja Kolanthai and Sudipta Seal and Garrett, {Timothy J.} and Saed Abbasi and Kimberly Bockley and Justin Hanes and Prem Chapagain and George Jallo and Wechsler-Reya, {Robert J.} and Taylor, {Michael D.} and Eberhart, {Charles G.} and Animesh Ray and Perera, {Ranjan J.}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1186/s40478-023-01684-w",

language = "English (US)",

volume = "11",

journal = "Acta Neuropathologica Communications",

issn = "2051-5960",

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TY - JOUR

T1 - miRNA-211 maintains metabolic homeostasis in medulloblastoma through its target gene long-chain acyl-CoA synthetase 4

AU - Yuan, Menglang

AU - Mahmud, Iqbal

AU - Katsushima, Keisuke

AU - Joshi, Kandarp

AU - Saulnier, Olivier

AU - Pokhrel, Rudramani

AU - Lee, Bongyong

AU - Liyanage, Wathsala

AU - Kunhiraman, Haritha

AU - Stapleton, Stacie

AU - Gonzalez-Gomez, Ignacio

AU - Kannan, Rangaramanujam M.

AU - Eisemann, Tanja

AU - Kolanthai, Elayaraja

AU - Seal, Sudipta

AU - Garrett, Timothy J.

AU - Abbasi, Saed

AU - Bockley, Kimberly

AU - Hanes, Justin

AU - Chapagain, Prem

AU - Jallo, George

AU - Wechsler-Reya, Robert J.

AU - Taylor, Michael D.

AU - Eberhart, Charles G.

AU - Ray, Animesh

AU - Perera, Ranjan J.

PY - 2023/12

Y1 - 2023/12

N2 - The prognosis of childhood medulloblastoma (MB) is often poor, and it usually requires aggressive therapy that adversely affects quality of life. microRNA-211 (miR-211) was previously identified as an important regulator of cells that descend from neural cells. Since medulloblastomas primarily affect cells with similar ontogeny, we investigated the role and mechanism of miR-211 in MB. Here we showed that miR-211 expression was highly downregulated in cell lines, PDXs, and clinical samples of different MB subgroups (SHH, Group 3, and Group 4) compared to normal cerebellum. miR-211 gene was ectopically expressed in transgenic cells from MB subgroups, and they were subjected to molecular and phenotypic investigations. Monoclonal cells stably expressing miR-211 were injected into the mouse cerebellum. miR-211 forced expression acts as a tumor suppressor in MB both in vitro and in vivo, attenuating growth, promoting apoptosis, and inhibiting invasion. In support of emerging regulatory roles of metabolism in various forms of cancer, we identified the acyl-CoA synthetase long-chain family member (ACSL4) as a direct miR-211 target. Furthermore, lipid nanoparticle-coated, dendrimer-coated, and cerium oxide-coated miR-211 nanoparticles were applied to deliver synthetic miR-211 into MB cell lines and cellular responses were assayed. Synthesizing nanoparticle-miR-211 conjugates can suppress MB cell viability and invasion in vitro. Our findings reveal miR-211 as a tumor suppressor and a potential therapeutic agent in MB. This proof-of-concept paves the way for further pre-clinical and clinical development. Graphical Abstract: [Figure not available: see fulltext.].

AB - The prognosis of childhood medulloblastoma (MB) is often poor, and it usually requires aggressive therapy that adversely affects quality of life. microRNA-211 (miR-211) was previously identified as an important regulator of cells that descend from neural cells. Since medulloblastomas primarily affect cells with similar ontogeny, we investigated the role and mechanism of miR-211 in MB. Here we showed that miR-211 expression was highly downregulated in cell lines, PDXs, and clinical samples of different MB subgroups (SHH, Group 3, and Group 4) compared to normal cerebellum. miR-211 gene was ectopically expressed in transgenic cells from MB subgroups, and they were subjected to molecular and phenotypic investigations. Monoclonal cells stably expressing miR-211 were injected into the mouse cerebellum. miR-211 forced expression acts as a tumor suppressor in MB both in vitro and in vivo, attenuating growth, promoting apoptosis, and inhibiting invasion. In support of emerging regulatory roles of metabolism in various forms of cancer, we identified the acyl-CoA synthetase long-chain family member (ACSL4) as a direct miR-211 target. Furthermore, lipid nanoparticle-coated, dendrimer-coated, and cerium oxide-coated miR-211 nanoparticles were applied to deliver synthetic miR-211 into MB cell lines and cellular responses were assayed. Synthesizing nanoparticle-miR-211 conjugates can suppress MB cell viability and invasion in vitro. Our findings reveal miR-211 as a tumor suppressor and a potential therapeutic agent in MB. This proof-of-concept paves the way for further pre-clinical and clinical development. Graphical Abstract: [Figure not available: see fulltext.].

KW - Medulloblastoma

KW - Metabolism

KW - miRNA-211

KW - Nanoparticles

KW - Therapeutics

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UR - http://www.scopus.com/inward/citedby.url?scp=85180244361&partnerID=8YFLogxK

U2 - 10.1186/s40478-023-01684-w

DO - 10.1186/s40478-023-01684-w

M3 - Article

C2 - 38115140

AN - SCOPUS:85180244361

SN - 2051-5960

VL - 11

JO - Acta Neuropathologica Communications

JF - Acta Neuropathologica Communications

IS - 1

M1 - 203

ER -

miRNA-211 maintains metabolic homeostasis in medulloblastoma through its target gene long-chain acyl-CoA synthetase 4

Abstract

Keywords

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