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Current Medicinal Chemistry

Editor-in-Chief

ISSN (Print): 0929-8673
ISSN (Online): 1875-533X

The Role of a Disturbed Arginine/NO Metabolism in the Onset of Cancer Cachexia: A Working Hypothesis

Author(s): N. Buijs, J. Luttikhold, A.P.J. Houdijk and P.A.M. van Leeuwen

Volume 19, Issue 31, 2012

Page: [5278 - 5286] Pages: 9

DOI: 10.2174/092986712803833290

Price: $65

Abstract

Cancer cachexia is a complex catabolic state in patients with a malignancy, associated with increased morbidity and mortality. This syndrome is characterized by a redistribution of the body’s protein content and a subsequent muscle wasting. The aetiology of this syndrome seems multifactorial, but remains unclear. It is suggested that this catabolic state occurs in response to the alterations in immune interactions between tumor and host. The amino acid arginine and its derivate nitric oxide (NO) play various roles in anti-tumor immune response and the body’s homeostasis. Glutamine is the precursor for arginine de novo synthesis and the most abundant amino acid in the body, mainly stored in skeletal muscle. Tumors develop a protection mechanism against the specific anti-tumor attack of the immune system by recruiting myeloid derived suppressor cells (MDSC). The MDSC deplete arginine levels and disturb NO production. We here hypothesize that the perturbation of the arginine/NO metabolism plays a significant role in the aetiology of cancer cachexia. Arginine/ NO metabolism is disturbed in patients with cancer. The body will try to correct this perturbation by mobilizing arginine and glutamine from muscles. The decreased arginine levels and the disturbed NO production activate several cascades, which in turn inhibit protein synthesis and promote proteolysis, leading to cachexia. Cachexia remains one of the most frequent and damaging opportunistic syndromes in cancer patients. In this review we will elaborate on a new hypothesised concept and the underlying mechanisms of this syndrome. New studies are essential to ground this hypothesis and to develop interventions to break through the pathological mechanisms underlying cachexia.

Keywords: Arginase, arginine, cancer cachexia, glutamine, immune system, iNOS, MDSC, nitric oxide, protein synthesis, proteolysis


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