CUIMC Publications

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Dietary restriction of cysteine and methionine sensitizes gliomas to ferroptosis and induces alterations in energetic metabolism

Record Created:

Sunday, July 28, 2024 - 20:54

Upadhyayula, P. S., Higgins, D. M., Mela, A., Banu, M., Dovas, A., Zandkarimi, F., Patel, P., Mahajan, A., Humala, N., Nguyen, T. T. T., Chaudhary, K. R., Liao, L., Argenziano, M., Sudhakar, T., Sperring, C. P., Shapiro, B. L., Ahmed, E. R., Kinslow, C., Ye, L. F., … Canoll, P. (2023). Dietary restriction of cysteine and methionine sensitizes gliomas to ferroptosis and induces alterations in energetic metabolism. Nature Communications, 14(1). https://doi.org/10.1038/s41467-023-36630-w

Authors:

Pavan S. Upadhyayula

Dominique M. Higgins

Angeliki Mela

Matei Banu

Athanassios Dovas

Fereshteh Zandkarimi

Purvi Patel

Aayushi Mahajan

Nelson Humala

Trang T. T. Nguyen

Kunal R. Chaudhary

Lillian Liao

Michael Argenziano

Tejaswi Sudhakar

Colin P. Sperring

Benjamin L. Shapiro

Eman R. Ahmed

Connor Kinslow

Ling F. Ye

Markus D. Siegelin

Simon Cheng

Rajesh Soni

Jeffrey N. Bruce

Brent R. Stockwell

Peter Canoll

Affiliated Authors:

Pavan S. Upadhyayula

Dominique M. Higgins

Angeliki Mela

Matei Banu

Athanassios Dovas

Purvi Patel

Aayushi Mahajan

Nelson Humala

Trang T. T. Nguyen

Kunal R. Chaudhary

Lillian Liao

Michael Argenziano

Tejaswi Sudhakar

Colin P. Sperring

Benjamin L. Shapiro

Eman R. Ahmed

Ling F. Ye

Markus D. Siegelin

Rajesh Soni

Jeffrey N. Bruce

Brent R. Stockwell

Peter Canoll

Columbia Affiliation:

Vagelos College of Physicians and Surgeons

Subjects:

Ferroptosis (MeSH)

Glioma (MeSH)

Mechanisms and Implications of Ferroptosis in Cancer (OpenAlex Topic)

Lipid Metabolism in Cancer Pathogenesis (OpenAlex Topic)

Epigenetic Modifications and Their Functional Implications (OpenAlex Topic)

Grants:

P30CA013696 (NIH – National Cancer Institute)

R35CA209896 (NIH – National Cancer Institute)

P01CA087497 (NIH – National Cancer Institute)

UL1TR001873 (NIH – National Center for Advancing Translational Sciences)

S10RR025686 (NIH – National Center for Research Resources)

R01NS103473 (NIH – National Institute of Neurological Disorders and Stroke)

R61NS109407 (NIH – National Institute of Neurological Disorders and Stroke)

T35AG044303 (NIH – National Institute On Aging)

Publication Type:

Article

Unique ID:

10.1038/s41467-023-36630-w

PMID:

36864031

DOI:

10.1038/s41467-023-36630-w

Journal:

Nature Communications

Publication Date:

2023-12-01

Data Source:

Scopus

Source Link:

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CD47-SIRPα axis blockade in NASH promotes necroptotic hepatocyte clearance by liver macrophages and decreases hepatic fibrosis

Record Created:

Tuesday, July 30, 2024 - 13:35

Shi, H., Wang, X., Li, F., Gerlach, B. D., Yurdagul, A., Moore, M. P., Zeldin, S., Zhang, H., Cai, B., Zheng, Z., Valenti, L., & Tabas, I. (2022). CD47-SIRPα axis blockade in NASH promotes necroptotic hepatocyte clearance by liver macrophages and decreases hepatic fibrosis. Science Translational Medicine, 14(672). https://doi.org/10.1126/scitranslmed.abp8309

Authors:

Hongxue Shi

Xiaobo Wang

Fang Li

Brennan D Gerlach

Arif Yurdagul

Mary P Moore

Sharon Zeldin

Hanrui Zhang

Bishuang Cai

Ze Zheng

Luca Valenti

Ira Tabas

Affiliated Authors:

Hongxue Shi

Xiaobo Wang

Fang Li

Brennan D Gerlach

Arif Yurdagul

Mary P Moore

Sharon Zeldin

Hanrui Zhang

Bishuang Cai

Ze Zheng

Ira Tabas

Columbia Affiliation:

Vagelos College of Physicians and Surgeons

Subjects:

Non-alcoholic Fatty Liver Disease (MeSH)

Grants:

P30CA013696 (NIH – National Cancer Institute)

S10RR025686 (NIH – National Center for Research Resources)

R00HL145131 (NIH – National Heart, Lung, and Blood Institute)

R00HL130574 (NIH – National Heart, Lung, and Blood Institute)

R00DK115778 (NIH – National Institute of Diabetes and Digestive and Kidney Diseases)

R01DK116620 (NIH – National Institute of Diabetes and Digestive and Kidney Diseases)

P30DK132710 (NIH – National Institute of Diabetes and Digestive and Kidney Diseases)

Publication Type:

Article

Unique ID:

10.1126/scitranslmed.abp8309

PMID:

36417485

DOI:

10.1126/scitranslmed.abp8309

Journal:

Science Translational Medicine

Publication Date:

2022-11-23

Data Source:

PubMed

Source Link:

Efferocytosis induces macrophage proliferation to help resolve tissue injury

Record Created:

Tuesday, September 24, 2024 - 15:09

Gerlach, B. D., Ampomah, P. B., Yurdagul, A., Liu, C., Lauring, M. C., Wang, X., Kasikara, C., Kong, N., Shi, J., Tao, W., & Tabas, I. (2021). Efferocytosis induces macrophage proliferation to help resolve tissue injury. Cell Metabolism, 33(12), 2445-2463.e8. https://doi.org/10.1016/j.cmet.2021.10.015

Authors:

Brennan D. Gerlach

Patrick B. Ampomah

Arif Yurdagul

Chuang Liu

Max C. Lauring

Xiaobo Wang

Canan Kasikara

Na Kong

Jinjun Shi

Wei Tao

Ira Tabas

Affiliated Authors:

Brennan D. Gerlach

Patrick B. Ampomah

Arif Yurdagul

Max C. Lauring

Xiaobo Wang

Canan Kasikara

Ira Tabas

Columbia Affiliation:

Vagelos College of Physicians and Surgeons

Subjects:

Macrophages (MeSH)

Phagocytosis (MeSH)

Mechanisms of Apoptotic Cell Clearance and Immune Regulation (OpenAlex Topic)

Macrophage Activation and Polarization (OpenAlex Topic)

Mechanosensitive Ion Channels in Physiology and Disease (OpenAlex Topic)

Author Keywords:

dnase2a

erk1/2 signaling

mertk

myc

atherosclerosis

efferocytosis

inflammation resolution

mtorc2/rictor

macrophage

macrophage proliferation

Grants:

P30CA013696 (NIH – National Cancer Institute)

S10RR027050 (NIH – National Center for Research Resources)

S10RR025686 (NIH – National Center for Research Resources)

R35HL145228 (NIH – National Heart, Lung, and Blood Institute)

R01HL127464 (NIH – National Heart, Lung, and Blood Institute)

P01HL087123 (NIH – National Heart, Lung, and Blood Institute)

K99HL145131 (NIH – National Heart, Lung, and Blood Institute)

T32HL007343 (NIH – National Heart, Lung, and Blood Institute)

P20GM121307 (NIH – National Institute of General Medical Sciences)

S10OD020056 (NIH – Office of the Director, National Institutes of Health)

Publication Type:

Article

Unique ID:

10.1016/j.cmet.2021.10.015

PMID:

34784501

DOI:

10.1016/j.cmet.2021.10.015

Journal:

Cell Metabolism

Publication Date:

2021-12-07

Data Source:

Scopus

Source Link:

Membrane curvature and connective fiber alignment in guinea pig round window membrane

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Record Created:

Monday, April 28, 2025 - 12:40

Arriaga, M., Arteaga, D. N., Fafalis, D., Yu, M., Wang, X., Kasza, K. E., Lalwani, A. K., & Kysar, J. W. (2021). Membrane curvature and connective fiber alignment in guinea pig round window membrane. Acta Biomaterialia, 136, 343–362. https://doi.org/10.1016/j.actbio.2021.09.036

Authors:

Miguel Arriaga

Daniel N. Arteaga

Dimitrios Fafalis

Michelle Yu

Xun Wang

Karen E. Kasza

Anil K. Lalwani

Jeffrey W. Kysar

Affiliated Authors:

Daniel N. Arteaga

Michelle Yu

Anil K. Lalwani

Jeffrey W. Kysar

Columbia Affiliation:

Vagelos College of Physicians and Surgeons
- Department of Otolaryngology—Head and Neck Surgery

Subjects:

Perilymph (MeSH)

Round Window, Ear (MeSH)

Author Keywords:

collagen fibers

confocal microscopy

elastic fibers

hyperbolic paraboloid

round window membrane

Grants:

P30CA013696 (NIH – National Cancer Institute)

S10RR025686 (NIH – National Center for Research Resources)

R01DC014547 (NIH – National Institute On Deafness and Other Communication Disorders)

Publication Type:

Article

Unique ID:

10.1016/j.actbio.2021.09.036

PMID:

34563725

DOI:

10.1016/j.actbio.2021.09.036

Journal:

Acta Biomaterialia

Publication Date:

2021-12-01

Data Source:

Scopus

Source Link:

Impact of Systemic versus Intratympanic Dexamethasone Administration on the Perilymph Proteome

Record Created:

Monday, April 28, 2025 - 12:39

Szeto, B., Valentini, C., Aksit, A., Werth, E. G., Goeta, S., Brown, L. M., Olson, E. S., Kysar, J. W., & Lalwani, A. K. (2021). Impact of Systemic versus Intratympanic Dexamethasone Administration on the Perilymph Proteome. Journal of Proteome Research, 20(8), 4001–4009. https://doi.org/10.1021/acs.jproteome.1c00322

Authors:

Betsy Szeto

Chris Valentini

Aykut Aksit

Emily G. Werth

Shahar Goeta

Lewis M. Brown

Elizabeth S. Olson

Jeffrey W. Kysar

Anil K. Lalwani

Affiliated Authors:

Betsy Szeto

Chris Valentini

Emily G. Werth

Shahar Goeta

Lewis M. Brown

Elizabeth S. Olson

Jeffrey W. Kysar

Anil K. Lalwani

Columbia Affiliation:

Vagelos College of Physicians and Surgeons
- Department of Otolaryngology—Head and Neck Surgery

Subjects:

Dexamethasone (MeSH)

Glucocorticoids (MeSH)

Perilymph (MeSH)

Proteome (MeSH)

Author Keywords:

3d printing

dexamethasone

inner ear diagnostics

microneedle

perilymph sampling

proteomics

round window membrane

steroids

3d printing steroids

Grants:

P30CA013696 (NIH – National Cancer Institute)

S10RR025686 (NIH – National Center for Research Resources)

R01DC014547 (NIH – National Institute On Deafness and Other Communication Disorders)

Publication Type:

Article

Unique ID:

10.1021/acs.jproteome.1c00322

PMID:

34291951

DOI:

10.1021/acs.jproteome.1c00322

Journal:

Journal of Proteome Research

Publication Date:

2021-08-06

Data Source:

Scopus

Source Link:

Novel 3D-printed hollow microneedles facilitate safe, reliable, and informative sampling of perilymph from guinea pigs

Record Created:

Tuesday, June 24, 2025 - 11:08

Szeto, B., Aksit, A., Valentini, C., Yu, M., Werth, E. G., Goeta, S., Tang, C., Brown, L. M., Olson, E. S., Kysar, J. W., & Lalwani, A. K. (2021). Novel 3D-printed hollow microneedles facilitate safe, reliable, and informative sampling of perilymph from guinea pigs. Hearing Research, 400, 108141. https://doi.org/10.1016/j.heares.2020.108141

Authors:

Betsy Szeto

Aykut Aksit

Chris Valentini

Michelle Yu

Emily G. Werth

Shahar Goeta

Chuanning Tang

Lewis M. Brown

Elizabeth S. Olson

Jeffrey W. Kysar

Anil K. Lalwani

Affiliated Authors:

Betsy Szeto

Chris Valentini

Michelle Yu

Emily G. Werth

Shahar Goeta

Chuanning Tang

Lewis M. Brown

Elizabeth S. Olson

Jeffrey W. Kysar

Anil K. Lalwani

Columbia Affiliation:

Vagelos College of Physicians and Surgeons
- Department of Otolaryngology—Head and Neck Surgery

Subjects:

Perilymph (MeSH)

Author Keywords:

3d printing

inner ear diagnostics

microneedle

perilymph sampling

proteomics

round window membrane

Grants:

P30CA013696 (NIH – National Cancer Institute)

S10RR025686 (NIH – National Center for Research Resources)

R01DC014547 (NIH – National Institute On Deafness and Other Communication Disorders)

Publication Type:

Article

Unique ID:

10.1016/j.heares.2020.108141

PMID:

33307286

DOI:

10.1016/j.heares.2020.108141

Journal:

Hearing Research

Publication Date:

2021-02-01

Data Source:

Scopus

Source Link: