RESUMO
An n-hexane extract of Callistemon subulatus was found to exhibit potent cytotoxicity against PANC-1 human pancreatic cancer cells, preferentially under nutrition starvation conditions, with a PC50 value of 6.2 µg/mL. Phytochemical investigation of this bioactive extract resulted in the isolation of fifteen compounds (1-15), including a new compound, subulatone A (-). The structure of compound 1 was elucidated using HRFABMS and NMR spectroscopic analyses. The isolated compounds were tested for their preferential cytotoxicity against the PANC-1 human pancreatic cancer cell line, using an anti-austerity strategy. Among these, myrtucommulone A (2) showed highly potent preferential cytotoxicity, with a PC50 value of 0.28 µM. Myrtucommulone A (2) was found to alter PANC-1 cell morphology, inhibit cell migration, and downregulate the PI3K/Akt/mTOR and autophagy signaling pathways in nutrient-deprived media, leading to cancer cell death. Therefore, myrtucommulone A (2) is a lead compound for anticancer drug development based on an anti-austerity strategy.
RESUMO
Cancer cachexia, characterized by continuous muscle wasting, is a key determinant of cancer-related death; however, there are few medical treatments to combat it. Myostatin (MSTN)/growth differentiation factor 8 (GDF-8), which is a member of the transforming growth factor-ß family, is secreted in an inactivated form noncovalently bound to the prodomain, negatively regulating the skeletal muscle mass. Therefore, inhibition of MSTN signaling is expected to serve as a therapeutic target for intractable muscle wasting diseases. Here, we evaluated the inhibitory effect of peptide-2, an inhibitory core of mouse MSTN prodomain, on MSTN signaling. Peptide-2 selectively suppressed the MSTN signal, although it had no effect on the activin signal. In contrast, peptide-2 slightly inhibited the GDF-11 signaling pathway, which is strongly related to the MSTN signaling pathway. Furthermore, we found that the i.m. injection of peptide-2 to tumor-implanted C57BL/6 mice alleviated muscle wasting in cancer cachexia. Although peptide-2 was unable to improve the loss of heart weight and fat mass when cancer cachexia model mice were injected with it, peptide-2 increased the gastrocnemius muscle weight and muscle cross-sectional area resulted in the enhanced grip strength in cancer cachexia mice. Consequently, the model mice treated with peptide-2 could survive longer than those that did not undergo this treatment. Our results suggest that peptide-2 might be a novel therapeutic candidate to suppress muscle wasting in cancer cachexia.
