Inactivation of TFEB and NF-κB by marchantin M alleviates the chemotherapy-driven pro-tumorigenic senescent secretion

In this study, we demonstrated that marchantin M (Mar-M, a naturally occurring bisbibenzyl) suppressed pro-inflammatory SASP components which were elevated in chemotherapy-resistant cells. Mar-M treatment attenuated the pro-tumorigenic effecst of SASP and enhanced survival in drug-resistant mouse models. No toxicity was detected on normal fibroblast cells or in animals following this treatment. Inactivation of transcription factor EB (TFEB) and nuclear factor-κB (NF-κB) by Mar-M significantly accounted for its suppression on the components of SASP. Furthermore, inhibition of SASP by Mar-M contributed to a synergistic effect during co-treatment with doxorubicin to lower toxicity and enhance antitumor efficacy. Thus, chemotherapy-driven pro-inflammatory activity, seen to contribute to drug-resistance, is an important target for Mar-M. By decreasing SASP, Mar-M may be a potential approach to overcome tumor malignancy.Graphical abstractA naturally-occurring bisbibenzyl of Marchantin M (Mar-M) can induce cellular senescence and transcriptionally suppress the senescence-associated secretary phenotype (SASP) through inactivation of TFEB and NF-κB in drug-resistant cells instead of normal fibroblast cells at low dose. Mar-M can alleviate the chemotherapy-driven pro-tumorigenic senescent secretion, leading to tumor regressions and prolonged survival with no detectable toxicity in drug-resistant mouse models. Mar-M synergistically cooperated with doxorubicin, to remarkably low its t...
Source: Acta Pharmaceutica Sinica B - Category: Cancer & Oncology Source Type: research