Retinoic acid and tumour necrosis factor-alpha act in concert to control the level of alkaline phosphatase mRNA.

Retinoic acid has a specific role in cellular differentiation and is believed to act by regulating the transcription of specific genes. In the present work, evidence is provided to show that alkaline phosphatase (ALP) gene expression is mediated by retinoic acid in a model clonal cell line (UMR 201) derived from rat neonatal calvaria. These cells have the characteristics of relatively undifferentiated mesenchymal cells with a very low basal ALP activity which is dramatically increased by retinoic acid.

Regulation of alkaline phosphatase expression in a neonatal rat clonal calvarial cell strain by retinoic acid.

A clonal cell strain, UMR 201, was established from a culture of rat calvarial cells by the process of limiting dilution on a collagen substratum. One-day-old neonatal rat calvaria stripped of periosteum were placed on collagen in alpha-MEM with 10% fetal bovine serum (FBS). Cells that grew out from the calvaria were passaged eight times to select cells with the ability to proliferate in culture before cloning was attempted.

Insulin release from a cloned precursor beta cell line.

This paper describes the establishment in long-term tissue culture of a functional, clonal beta (B) cell line UMR 407/3 derived from neonatal rat pancreas. Immunofluorescence demonstrated specific and uniform staining for insulin. Transmission electron microscopy showed the presence of microvilli and cytoplasmic granules.

Effect of retinoids on the growth, ultrastructure, and cytoskeletal structures of malignant rat osteoblasts.

A clonal rat osteogenic sarcoma cell line, UMR 106-06, was used to study the effects of retinoic acid (RA) on its growth and morphology. Retinoic acid caused a reversible, time and dose-dependent inhibition of growth. RA-treated cells were larger, were more adherent to the substratum, and contained fewer mitotic figures.