Franco Venanzi scite author profile

Autophagy plays an important role in neoplastic transformation of cells and in resistance of cancer cells to radio- and chemotherapy. p62 (SQSTM1) is a key component of autophagic machinery which is also involved in signal transduction. Although recent empirical observations demonstrated that p62 is overexpressed in variety of human tumors, a mechanism of p62 overexpression is not known. Here we report that the transformation of normal human mammary epithelial cells with diverse oncogenes (RAS, PIK3CA and Her2) causes marked accumulation of p62. Based on this result, we hypothesized that p62 may be a feasible candidate to be an anti-cancer DNA vaccine. Here we performed a preclinical study of a novel DNA vaccine encoding p62. Intramuscularly administered p62-encoding plasmid induced anti-p62 antibodies and exhibited strong antitumor activity in four models of allogeneic mouse tumors – B16 melanoma, Lewis lung carcinoma (LLC), S37 sarcoma, and Ca755 breast carcinoma. In mice challenged with Ca755 cells, p62 treatment had dual effect: inhibited tumor growth in some mice and prolonged life in those mice which developed tumor size similar to control. P62-encoding plasmid has demonstrated its potency both as a preventive and therapeutic vaccine. Importantly, p62 vaccination drastically suppressed metastasis formation: in B16 melanoma where tumor cells where injected intravenously, and in LLC and S37 sarcoma with spontaneous metastasis. Overall, we conclude that a p62-encoding vector(s) constitute(s) a novel, effective broad-spectrum antitumor and anti-metastatic vaccine feasible for further development and clinical trials.

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Plasmid DNA-coding p62 as a bone effective anti-inflammatory/anabolic agent

Sabbieti

Agas

Capitani

et al. 2015

Oncotarget

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We recently reported that a DNA plasmid coding p62-SQSTM1 acts as an effective anti tumor vaccine against both transplantable mouse tumors and canine spontaneous mammary neoplasms. Here we report the unexpected finding that intramuscular delivery of p62 DNA exerts a powerful anti-osteoporotic activity in a mouse model of inflammatory bone loss (i.e, ovariectomy) by combining bone-sparing and osteo-synthetic effects. Notably, the suppression of osteoporosis by p62DNA was associated with a sharp down-regulation of master inflammatory cytokines, and up-regulation of endogenous p62 protein by bone-marrow stromal cells. The present data provide a solid rational to apply p62 DNA vaccine as a safe, new therapeutic for treatment of inflammatory related bone loss diseases.

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Genetic immunization against neu /erbB2 transgenic breast cancer

Amici¹,

Venanzi²,

Concetti³

1998

Cancer Immunol Immunother

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erbB2/neu, an overexpressed oncogene product, has been proposed as a human cancer vaccine target. In the present study, transgenic (rat neuNT oncogene) FVB/neu mice, developing metastasizable mammary carcinoma, were immunized with a plasmid DNA encoding are not tolerant to the self antigen and sequences. We report that transgenic tumour-bearing mice, like some breast cancer patients erbB2 + X, develop anti-neu autoimmune responses, which can be boosted and skewed to a Th1 phenotype by DNA immunization. Intramuscular injections of neuNT plasmid drastically reduced (or even prevented in a small number of treated mice) the outgrowth of mammary neoplasms as well as their metastatic penetrance. Furthermore, DNA immunization caused haemorrhagic necrosis of established cancer nests, leaving a greatly reduced portion of the tumour burden for the host to cope with. The antitumour activities we obtained, in this very challenging model for cancer immunotherapy, lay the foundation for DNA-based immunization to control erbB2/neu-overexpressing neoplasms.

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Franco Venanzi

Long-term immunologic effects of thymectomy in patients with myasthenia gravis

Prognostic relevance of altered Fas (CD95)-system in human breast cancer

Broad-spectrum anti-tumor and anti-metastatic DNA vaccine based on p62-encoding vector

Plasmid DNA-coding p62 as a bone effective anti-inflammatory/anabolic agent

Genetic immunization against neu /erbB2 transgenic breast cancer

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