Treatment with Soluble Activin Receptor Type IIB Alters Metabolic Response in Chemotherapy-Induced Cachexia.

O’connell O’Connell,Bonetto Bonetto,Couch Couch,Pin Pin

doi:10.3390/cancers11091222

O’connell O’Connell, Bonetto Bonetto + Show 2 more

Open Access

https://doi.org/10.3390/cancers11091222

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Journal: Cancers	Publication Date: Aug 21, 2019
Citations: 13	License type: CC BY 4.0

Affiliation: Indiana University – Purdue University Indianapolis

Abstract

Some chemotherapeutic agents have been shown to lead to the severe wasting syndrome known as cachexia resulting in dramatic losses of both skeletal muscle and adipose tissue. Previous studies have shown that chemotherapy-induced cachexia is characterized by unique metabolic alterations. Recent results from our laboratory and others have shown that the use of ACVR2B/Fc, a soluble form of the activin receptor 2B (ACVR2B), can mitigate muscle wasting induced by chemotherapy, although the underlying mechanisms responsible for such protective effects are unclear. In order to understand the biochemical mechanisms through which ACVR2B/Fc functions, we employed a comprehensive, multi-platform metabolomics approach. Using both nuclear magnetic resonance (NMR) and mass-spectrometry (MS), we profiled the metabolome of both serum and muscle tissue from four groups of mice including (1) vehicle, (2) the chemotherapeutic agent, Folfiri, (3) ACVR2B/Fc alone, and (4) combined treatment with both Folfiri and ACVR2B/Fc. The metabolic profiles demonstrated large effects with Folfiri treatment and much weaker effects with ACVR2B/Fc treatment. Interestingly, a number of significant effects were observed in the co-treatment group, with the addition of ACVR2B/Fc providing some level of rescue to the perturbations induced by Folfiri alone. The most prominent of these were a normalization of systemic glucose and lipid metabolism. Identification of these pathways provides important insights into the mechanism by which ACVR2B/Fc protects against chemotherapy-induced cachexia.

Highlights

Many chemotherapeutic agents have been shown to contribute to the development and progression of cachexia, a debilitating condition characterized by a dramatic loss of skeletal muscle and adipose tissue [1,2,3,4,5]
Cachexia was induced by treating mice with Folfiri, an anticancer combination therapy composed of folinic acid, 5-fluorouracil and irinotecan
In our previous study we suggested that, as with cancer, chemotherapy can lead to an increased systemic glucose demand, with the glucose being consumed by the glycolytic pathway [5]

Summary

Introduction

Many chemotherapeutic agents have been shown to contribute to the development and progression of cachexia, a debilitating condition characterized by a dramatic loss of skeletal muscle and adipose tissue [1,2,3,4,5]. A recent study from our laboratory has shown that cachexia induced by cancer and by chemotherapy lead to significant metabolic perturbations [5,12]. This study involved cachexia induced by the colon-26 cancer model and by treatment with Folfiri, a chemotherapeutic agent frequently used for the treatment of solid tumors which is composed of 5-fluorouracil, folinic acid, and irinotecan. Some of the metabolic perturbations induced by cancer and chemotherapy were similar, some were unique, indicating

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