Jack L. Summers scite author profile

Summary: Scanning and transmission electron microscopy and fluorescence light microscopy were employed to characterize the cytotoxic effects of vitamin C (VitC), vitamin K, (VitK,) or a VitC:VK, combination on a human bladder carcinoma cell line (T24) following 1 -h and 2-h vitamin treatment. T24 cells exposed to VitC alone exhibited membranous damage (blebs and endoplasmic extrusions, elongated microvilli). VitK,-treated cells displayed greater membrane damage and enucleation than those treated with VitC as well as cytoplasmic defects characteristic of cytoskeletal damage. VitC:VitK,-treated cells showed exaggerated membrane damage and an enucleation process in which the perikarya separate from the main cytoplasmic cell body by self-excision. Self-excisions continued for perikarya which contained an intact nucleus surrounded by damaged organelles. After further excisions of cytoplasm, the nuclei exhibited nucleolar segregation and chromatin decondensation followed by nuclear karryorhexis and karyolysis. This process of cell death induced by oxidative stress was named autoschizis because it showed both apoptotic and necrotic morphologic characteristics.

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Potential Therapeutic Application of the Association of Vitamins C and K3 in Cancer Treatment

Calderón¹,

Cadrobbi

Marques

et al. 2002

CMC

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The decision of stressed cells to die or to survive is made by integrating signals at different levels through multiple check points. However, initiation and continued progression toward cell death by apoptosis in cancer cells may be blocked by mutation of the tumor suppressor p53 or overexpression of members of the bcl-2 family of proteins. The existence of such mechanisms indicates that cancer cells lose the controls regulating their cell cycle. Therefore, the activation of their programmed cell death appears as a major therapeutic target. Oxidative stress can stimulate growth, trigger apoptosis, or cause necrosis depending upon the dose and the exposure time of the oxidizing agent. A large body of evidence supports the idea that oxidative stress induced by redox cycling of vitamins C and K(3) in association surpasses cancer cellular defense systems and results in cell death. The molecular mechanisms underlying such a process are, however, still unknown. Indeed, several types of cell death may be produced, namely autoschizis, apoptosis and necrosis. Combined vitamin C and K(3) administration in vitro and in vivo produced tumor growth inhibition and increased the life-span of tumor-bearing mice. CK(3)-treatment selectively potentiated tumor chemotherapy, produced sensitization of tumors resistant to some drugs, potentiated cancer radiotherapy and caused inhibition of the development of cancer metastases without inducing toxicity in the host. We propose the association of vitamins C and K(3) as an adjuvant cancer therapy which may be introduced into human cancer therapy without any change in the classical anticancer protocols, and without any supplementary risk for patients.

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Jack L. Summers

Autoschizis: a novel cell death

Cancer cell necrosis by autoschizis: Synergism of antitumor activity of vitamin C: Vitamin K₃ on human bladder carcinoma T24 cells

Potential Therapeutic Application of the Association of Vitamins C and K3 in Cancer Treatment

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Jack L. Summers

Autoschizis: a novel cell death

Cancer cell necrosis by autoschizis: Synergism of antitumor activity of vitamin C: Vitamin K3 on human bladder carcinoma T24 cells

Potential Therapeutic Application of the Association of Vitamins C and K3 in Cancer Treatment

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Cancer cell necrosis by autoschizis: Synergism of antitumor activity of vitamin C: Vitamin K₃ on human bladder carcinoma T24 cells