Arginine Feeding: a Novel Strategy to Improve Protein Metabolism in Cancer and the Response to Surgery

Overview

Muscle catabolism is a major problem in cancer patients undergoing surgery as it negatively affects post-operative recovery. Recent evidence exists that protein metabolic changes are already apparent in cancer before muscle wasting is being present. In line, patients with breast cancer, generally characterized by a normal nutritional status, were recently found to be arginine deficient. Arginine deficiency in cancer can be explained by: 1) Reduced arginine availability, due to exhaustion of endogenous (muscle) sources of arginine 2) Enhanced arginine catabolism, due to conversion of arginine by arginase, which is abundant in tumors. Protein is the most important endogenous source of arginine. Arginine deficiency will lead to a negative feedback loop in cachexia by promoting protein breakdown in an attempt to restore plasma arginine levels. We hypothesize that pre-operative arginine supplementation in breast cancer patients diminishes the occurrence of muscle wasting after surgery by 1) normalizing arginine availability pre-operatively, resulting in conservation of protein, 2) diminishing the catabolic effects of surgery by supplying exogenous arginine for the post-operative response, 3) enhancing the anabolic capacity to feeding through supplying substrate for protein synthesis.

In the present proposal, the effects of surgery and cancer will be examined by comparing subjects undergoing breast surgery because of malignancy vs. prophylactic reasons (aim 1). Furthermore, the effects of one-week pre-operative protein feeding with or without enrichment with arginine on post-operative protein metabolism (aim 2) will be investigated in the cancer group. Variables of interest are: 1. Whole-body and skeletal muscle protein metabolism, whole body arginine turnover and de-novo arginine production rate, and the anabolic capacity to feeding(assessed by stable isotope methodology). 2. Body weight, muscle mass and functional status, score for well-being (assessed by Profile of Mood State and Mini Mental State). In the present study, we propose that a nutritional supplement that is high in protein content and enhanced in arginine will be more effective than a typical commercial nutritional supplement in diminishing the catabolic effects of surgery in subjects with cancer, thereby optimizing their quality of life. If this is found to be the case, this would provide the basis for reformulating the nutritional composition in accord with the effects of cancer and surgery on protein metabolism.