Bacteriolytic therapy with Clostridium ghonii for experimental solid tumors.

Clostridium ghonii (C. ghonii) is a non-pathogenic Clostridium species and a strictly anaerobic, spore-forming bacterium. However, its bacterial oncolytic capabilities and applications have not yet been reported. This study aimed to determining the bacterial oncolytic capability of C. ghonii for the treatment of experimental solid tumors. C. ghonii secreted collagenase IV and phospholipase c and significantly promoted apoptosis and necrosis in cultured A549 cells. C. ghonii spores specially germinated and were distributed in the tumors, and elicited the immune responses after intratumoral injection in tumor-bearing mice. C. ghonii spores decreased tumor volumes and increased tumor necrosis and inhibition rates in tumor-bearing mice. Furthermore, the combination of radiation and C. ghonii exerted additive anti-tumor effects. Taken together, our data indicate that C. ghonii is a bacteriolytic therapeutic agent against solid tumors. Given the proven natural safety of C. ghonii, it is attractive as a potential novel bacteriolytic therapy for solid tumors.

PADI3 induces cell cycle arrest via the Sirt2/AKT/p21 pathway and acts as a tumor suppressor gene in colon cancer.

OBJECTIVE: As a member of the peptidyl arginine deiminase (PAD) family, PADI3 is weakly expressed in colon cancer tissues and highly expressed in adjacent colon cancer tissues. However, the role of PADI3 in colon cancer is unclear. In this study, we investigated the function and molecular mechanism of PADI3 in colon cancer tumorigenesis. METHODS: Western blot and real-time PCR were used to detect the expression levels of several genes. CCK-8, flow cytometry (FCM) and colony formation assays were used to examine cell proliferation, the cell cycle and colony formation ability. RNA-sequencing analysis was used to study the molecular mechanism of PADI3 in tumorigenesis. A truncation mutation experiment was performed to determine the key functional domain of PADI3. RESULTS: PADI3 overexpression inhibited cell proliferation and colony formation and led to G1 phase arrest in both HCT116 (originating from primary colon cancer) and LoVo (originating from metastatic tumor nodules of colon cancer) cells. PADI3-expressing HCT116 cells had a lower tumor formation rate and produced smaller tumors than control cells. PADI3 significantly decreased Sirtuin2 (Sirt2) and Snail expression and AKT phosphorylation and increased p21 expression, and Sirt2 overexpression partly reversed the effects induced by PADI3 overexpression. Immunocytochemistry showed that PADI3 is mainly localized in the cytoplasm. Truncation mutation experiments showed that the C-domain is the key domain involved in the antitumor activity of PADI3. CONCLUSIONS: PADI3 suppresses Snail expression and AKT phosphorylation and promotes p21 expression by downregulating Sirt2 expression in the cytoplasm, and the C-domain is the key domain for its antitumor activity.