Inhibition of DNA Synthesis and Neoplastic Cell Growth by Vitamin A (Retinol)

Abstract

The inhibitory effect of vitamin A alcohol (retinol) on the DNA synthesis and neoplastic cell growth of chemically induced carcinomas (squamous cell carcinomas in Swiss male albino mice and basal cell carcinomas in inbred SD rats) by 3-methylcholanthrene [(MCA) CAS: 56-49-5] was studied. A marked inhibition of squamous cell carcinomas and basal cell carcinomas was observed following a combined administration of MCA and vitamin A (retinol) compared to the finding for animals treated with MCA alone (P <.001). DNA radioactivity and autoradiographic studies with the use of [³H]thymidine showed a marked inhibition of DNA synthesis (twofold to threefold) in the neoplastic cell nuclei following a concomitant administration of vitamin A (retinol) and MCA (12%) as compared to the DNA synthesis following administration of MCA alone (31%) (P<.001). Electron microscopic and cytologic observations revealed an advanced cytolysis and disorganization of neoplastic cells with reduction of polysomes, tonofilaments, and lysosome populations and mitochondrial alterations following vitamin A and MCA administration as compared to characteristic squamous neoplastic cells and basal neoplastic cells following MCA treatment alone. In addition, scanning electron microscopy revealed advanced changes of cell surfaces with reduction of microvilli and disorganization of cytoarchitecture. The present findings demonstrate that vitamin A exerts its anticarcinogenic effect by inhibiting DNA synthesis, disrupting cell surfaces, and possibly interfering with MCA metabolism in epidermal cells.