The orally active melanocortin-4 receptor antagonist BL-6020/979: a promising candidate for the treatment of cancer cachexia.

BACKGROUND: Under physiological conditions, the melanocortin system is a crucial part of the complex network regulating food intake and energy expenditure. In pathological states, like cachexia, these two parameters are deregulated, i.e., food intake is decreased and energy expenditure is increased-a vicious combination leading to catabolism. Agouti-related protein (AgRP), the endogenous antagonist at the melanocortin-4 receptor (MC-4R), was found to increase food intake and to reduce energy expenditure. This qualifies MC-4R blockade as an attractive mode of action for the treatment of cachexia. Based on this rationale, a novel series of small-molecule MC-4R antagonists was designed, from which the orally active compound BL-6020/979 (formerly known as SNT207979) emerged as the first promising development candidate showing encouraging pre-clinical efficacy and safety properties which are presented here. METHODS AND RESULTS: BL-6020/979 is an orally available, selective and potent MC-4R antagonist with a drug-like profile. It increased food intake and decreased energy expenditure in healthy wild-type but not in MC-4R deficient mice. More importantly, it ameliorated cachexia-like symptoms in the murine C26 adenocarcinoma model; with an effect on body mass and body composition and on the expression of catabolic genes. Moreover, BL-6020/979 showed antidepressant-like properties in the chronic mild stress model in rats and exhibits a favorable safety profile. CONCLUSION: The properties of BL-6020/979 demonstrated in animal models and presented here make it a promising candidate suitable for further development towards a first-in-class treatment option for cachexia that potentially opens up the opportunity to treat two hallmarks of the disease, i.e., decreased food intake and increased energy expenditure, with one drug.

Virion incorporation of human immunodeficiency virus type 1 Nef is mediated by a bipartite membrane-targeting signal: analysis of its role in enhancement of viral infectivity.

The nef gene of primate immunodeficiency viruses is essential for high-titer virus replication and AIDS pathogenesis in vivo. In tissue culture, Nef is not required for human immunodeficiency virus (HIV) infection but enhances viral infectivity. We and others have shown that Nef is incorporated into HIV-1 particles and cleaved by the viral proteinase. To determine the signal for Nef incorporation and to analyze whether virion-associated Nef is responsible for enhancement of infectivity, we generated a panel of nef mutants and analyzed them for virion incorporation of Nef and for their relative infectivities. We report that N-terminal truncations of Nef abolished its incorporation into HIV particles. Incorporation was reconstituted by targeting the respective proteins to the plasma membrane by using a heterologous signal. Mutational analysis revealed that both myristoylation and an N-terminal cluster of basic amino acids were required for virion incorporation and for plasma membrane targeting of Nef. Grafting the N-terminal anchor domain of Nef onto the green fluorescent protein led to membrane targeting and virion incorporation of the resulting fusion protein. These results indicate that Nef incorporation into HIV-1 particles is mediated by plasma membrane targeting via an N-terminal bipartite signal which is reminiscent of a Src homology region 4. Virion incorporation of Nef correlated with enhanced infectivity of the respective viruses in a single-round replication assay. However, the phenotypes of HIV mutants with reduced Nef incorporation only partly correlated with their ability to replicate in primary lymphocytes, indicating that additional or different mechanisms may be involved in this system.