Complete reversal of muscle wasting in experimental cancer cachexia: Additive effects of activin type II receptor inhibition and-2 agonist

Formoterol is a highly potent (2)-adrenoceptor-selective agonist, which is a muscle growth promoter in many animal species. Myostatin/activin inhibition reverses skeletal muscle loss and prolongs survival of tumor-bearing animals. The aim of this investigation was to evaluate the effects of a combination of the soluble myostatin receptor ActRIIB (sActRIIB) and the (2)-agonist formoterol in the cachectic Lewis lung carcinoma model. The combination of formoterol and sActRIIB was extremely effective in reversing muscle wasting associated with experimental cancer cachexia in mice. Muscle weights from tumor-bearing animals were completely recovered following treatment and this was also reflected in the measured grip strength. This combination increased food intake in both control and tumor-bearing animals. The double treatment also prolonged survival significantly without affecting the weight and growth of the primary tumor. In addition, it significantly reduced the number of metastasis. Concerning the mechanisms for the preservation of muscle mass during cachexia, the effects of formoterol and sActRIIB seemed to be additive, since formoterol reduced the rate of protein degradation (as measured in vitro as tyrosine release, using incubated isolated individual muscles) while sActRIIB only affected protein synthesis (as measured in vivo using tritiated phenylalanine). Formoterol also increased the rate of protein synthesis and this seemed to be favored by the presence of sActRIIB. Combining formoterol and sActRIIB seemed to be a very promising treatment for experimental cancer cachexia. Further studies in human patients are necessary and may lead to a highly effective treatment option for muscle wasting associated with cancer. What's new? Cachexia is associated with reduced cancer survival. Muscle wasting is an important part of this process. In this study, the authors tested a combination of two compounds: (1) the -adrenergic drug formoterol, which may prevent the degradation of muscle proteins, and (2) a compound that blocks myostatin, which may, in turn, increase muscle cell growth. The results suggest that this combination may be effective in reducing muscle wasting caused by cachexia, and may potentially be suitable for the majority of cancer patients.