Profiling of adipose and skeletal muscle in human pancreatic cancer cachexia reveals distinct gene profiles with convergent pathways

Ashok Narasimhan; Xiaoling Zhong; Ernie P. Au; Eugene P. Ceppa; Atilla Nakeeb; Michael G. House; Nicholas J. Zyromski; C. Max Schmidt; Katheryn N.H. Schloss; Daniel E.I. Schloss; Yunlong Liu; Guanglong Jiang; Bradley A. Hancock; Milan Radovich; Joshua K. Kays; Safi Shahda; Marion E. Couch; Leonidas G. Koniaris; Teresa A. Zimmers

doi:10.3390/cancers13081975

Profiling of adipose and skeletal muscle in human pancreatic cancer cachexia reveals distinct gene profiles with convergent pathways

Ashok Narasimhan, Xiaoling Zhong, Ernie P. Au, Eugene P. Ceppa, Atilla Nakeeb, Michael G. House, Nicholas J. Zyromski, C. Max Schmidt, Katheryn N.H. Schloss, Daniel E.I. Schloss, Yunlong Liu, Guanglong Jiang, Bradley A. Hancock, Milan Radovich, Joshua K. Kays, Safi Shahda, Marion E. Couch, Leonidas G. Koniaris, Teresa A. Zimmers

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

9 Scopus citations

Abstract

The vast majority of patients with pancreatic ductal adenocarcinoma (PDAC) suffer cachexia. Although cachexia results from concurrent loss of adipose and muscle tissue, most studies focus on muscle alone. Emerging data demonstrate the prognostic value of fat loss in cachexia. Here we sought to identify the muscle and adipose gene profiles and pathways regulated in cachexia. Matched rectus abdominis muscle and subcutaneous adipose tissue were obtained at surgery from patients with benign conditions (n = 11) and patients with PDAC (n = 24). Self-reported weight loss and body composition measurements defined cachexia status. Gene profiling was done using ion proton sequencing. Results were queried against external datasets for validation. 961 DE genes were identified from muscle and 2000 from adipose tissue, demonstrating greater response of adipose than muscle. In addition to known cachexia genes such as FOXO1, novel genes from muscle, including PPP1R8 and AEN correlated with cancer weight loss. All the adipose correlated genes including SCGN and EDR17 are novel for PDAC cachexia. Pathway analysis demonstrated shared pathways but largely non-overlapping genes in both tissues. Age related muscle loss predominantly had a distinct gene profiles compared to cachexia. This analysis of matched, externally validate gene expression points to novel targets in cachexia.

Original language	English (US)
Article number	1975
Journal	Cancers
Volume	13
Issue number	8
DOIs	https://doi.org/10.3390/cancers13081975
State	Published - Apr 2 2021
Externally published	Yes

Keywords

Adipose
Atrophy
Cachexia
Gene expression
Neoplasia
Pancreatic cancer
Pancreatic ductal adenocarcinoma
RNAseq
Skeletal muscle

ASJC Scopus subject areas

Oncology
Cancer Research

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10.3390/cancers13081975

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Narasimhan, A., Zhong, X., Au, E. P., Ceppa, E. P., Nakeeb, A., House, M. G., Zyromski, N. J., Max Schmidt, C., Schloss, K. N. H., Schloss, D. E. I., Liu, Y., Jiang, G., Hancock, B. A., Radovich, M., Kays, J. K., Shahda, S., Couch, M. E., Koniaris, L. G., & Zimmers, T. A. (2021). Profiling of adipose and skeletal muscle in human pancreatic cancer cachexia reveals distinct gene profiles with convergent pathways. Cancers, 13(8), Article 1975. https://doi.org/10.3390/cancers13081975

Narasimhan, A, Zhong, X, Au, EP, Ceppa, EP, Nakeeb, A, House, MG, Zyromski, NJ, Max Schmidt, C, Schloss, KNH, Schloss, DEI, Liu, Y, Jiang, G, Hancock, BA, Radovich, M, Kays, JK, Shahda, S, Couch, ME, Koniaris, LG & Zimmers, TA 2021, 'Profiling of adipose and skeletal muscle in human pancreatic cancer cachexia reveals distinct gene profiles with convergent pathways', Cancers, vol. 13, no. 8, 1975. https://doi.org/10.3390/cancers13081975

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title = "Profiling of adipose and skeletal muscle in human pancreatic cancer cachexia reveals distinct gene profiles with convergent pathways",

abstract = "The vast majority of patients with pancreatic ductal adenocarcinoma (PDAC) suffer cachexia. Although cachexia results from concurrent loss of adipose and muscle tissue, most studies focus on muscle alone. Emerging data demonstrate the prognostic value of fat loss in cachexia. Here we sought to identify the muscle and adipose gene profiles and pathways regulated in cachexia. Matched rectus abdominis muscle and subcutaneous adipose tissue were obtained at surgery from patients with benign conditions (n = 11) and patients with PDAC (n = 24). Self-reported weight loss and body composition measurements defined cachexia status. Gene profiling was done using ion proton sequencing. Results were queried against external datasets for validation. 961 DE genes were identified from muscle and 2000 from adipose tissue, demonstrating greater response of adipose than muscle. In addition to known cachexia genes such as FOXO1, novel genes from muscle, including PPP1R8 and AEN correlated with cancer weight loss. All the adipose correlated genes including SCGN and EDR17 are novel for PDAC cachexia. Pathway analysis demonstrated shared pathways but largely non-overlapping genes in both tissues. Age related muscle loss predominantly had a distinct gene profiles compared to cachexia. This analysis of matched, externally validate gene expression points to novel targets in cachexia.",

keywords = "Adipose, Atrophy, Cachexia, Gene expression, Neoplasia, Pancreatic cancer, Pancreatic ductal adenocarcinoma, RNAseq, Skeletal muscle",

author = "Ashok Narasimhan and Xiaoling Zhong and Au, {Ernie P.} and Ceppa, {Eugene P.} and Atilla Nakeeb and House, {Michael G.} and Zyromski, {Nicholas J.} and {Max Schmidt}, C. and Schloss, {Katheryn N.H.} and Schloss, {Daniel E.I.} and Yunlong Liu and Guanglong Jiang and Hancock, {Bradley A.} and Milan Radovich and Kays, {Joshua K.} and Safi Shahda and Couch, {Marion E.} and Koniaris, {Leonidas G.} and Zimmers, {Teresa A.}",

note = "Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

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day = "2",

doi = "10.3390/cancers13081975",

language = "English (US)",

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AU - Narasimhan, Ashok

AU - Zhong, Xiaoling

AU - Au, Ernie P.

AU - Ceppa, Eugene P.

AU - Nakeeb, Atilla

AU - House, Michael G.

AU - Zyromski, Nicholas J.

AU - Max Schmidt, C.

AU - Schloss, Katheryn N.H.

AU - Schloss, Daniel E.I.

AU - Liu, Yunlong

AU - Jiang, Guanglong

AU - Hancock, Bradley A.

AU - Radovich, Milan

AU - Kays, Joshua K.

AU - Shahda, Safi

AU - Couch, Marion E.

AU - Koniaris, Leonidas G.

AU - Zimmers, Teresa A.

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N2 - The vast majority of patients with pancreatic ductal adenocarcinoma (PDAC) suffer cachexia. Although cachexia results from concurrent loss of adipose and muscle tissue, most studies focus on muscle alone. Emerging data demonstrate the prognostic value of fat loss in cachexia. Here we sought to identify the muscle and adipose gene profiles and pathways regulated in cachexia. Matched rectus abdominis muscle and subcutaneous adipose tissue were obtained at surgery from patients with benign conditions (n = 11) and patients with PDAC (n = 24). Self-reported weight loss and body composition measurements defined cachexia status. Gene profiling was done using ion proton sequencing. Results were queried against external datasets for validation. 961 DE genes were identified from muscle and 2000 from adipose tissue, demonstrating greater response of adipose than muscle. In addition to known cachexia genes such as FOXO1, novel genes from muscle, including PPP1R8 and AEN correlated with cancer weight loss. All the adipose correlated genes including SCGN and EDR17 are novel for PDAC cachexia. Pathway analysis demonstrated shared pathways but largely non-overlapping genes in both tissues. Age related muscle loss predominantly had a distinct gene profiles compared to cachexia. This analysis of matched, externally validate gene expression points to novel targets in cachexia.

AB - The vast majority of patients with pancreatic ductal adenocarcinoma (PDAC) suffer cachexia. Although cachexia results from concurrent loss of adipose and muscle tissue, most studies focus on muscle alone. Emerging data demonstrate the prognostic value of fat loss in cachexia. Here we sought to identify the muscle and adipose gene profiles and pathways regulated in cachexia. Matched rectus abdominis muscle and subcutaneous adipose tissue were obtained at surgery from patients with benign conditions (n = 11) and patients with PDAC (n = 24). Self-reported weight loss and body composition measurements defined cachexia status. Gene profiling was done using ion proton sequencing. Results were queried against external datasets for validation. 961 DE genes were identified from muscle and 2000 from adipose tissue, demonstrating greater response of adipose than muscle. In addition to known cachexia genes such as FOXO1, novel genes from muscle, including PPP1R8 and AEN correlated with cancer weight loss. All the adipose correlated genes including SCGN and EDR17 are novel for PDAC cachexia. Pathway analysis demonstrated shared pathways but largely non-overlapping genes in both tissues. Age related muscle loss predominantly had a distinct gene profiles compared to cachexia. This analysis of matched, externally validate gene expression points to novel targets in cachexia.

KW - Adipose

KW - Atrophy

KW - Cachexia

KW - Gene expression

KW - Neoplasia

KW - Pancreatic cancer

KW - Pancreatic ductal adenocarcinoma

KW - RNAseq

KW - Skeletal muscle

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DO - 10.3390/cancers13081975

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VL - 13

JO - Cancers

JF - Cancers

IS - 8

M1 - 1975

ER -

Profiling of adipose and skeletal muscle in human pancreatic cancer cachexia reveals distinct gene profiles with convergent pathways

Abstract

Keywords

ASJC Scopus subject areas

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