Seemingly diverse activities of beta-alethine.

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Knight GD, Mann PL, Laubscher KH, Scallen TJ

Seemingly diverse activities of beta-alethine.

Cancer Res. 1994 Nov 1;54(21):5636-42.

PubMed ID
7923209 [ View in PubMed
]
Abstract

beta-Alethine (beta-alanyl-cysteamine disulfide) exhibits striking biological activities in diverse systems. At an optimum of about 10 ng/ml, beta-alethine (a) adapts murine liver cells to culture (53 colonies/10(6) cells versus none in controls), (b) delays aging of human IMR-90 fetal lung fibroblasts (102 population doubling levels versus 47 in controls, producing 3 x 10(16) greater biomass), and (c) markedly stimulates antibody-producing plaque-forming cells from murine splenocytes (16,875/10(6) cells versus 55/10(6) cells in controls) or human peripheral blood leukocytes (1826/10(6) cells versus 0/10(6) cells in controls). Early interventions with beta-alethine (1 ng/kg to 100 micrograms/kg) successfully treat NS-1 myeloma in a syngeneic murine tumor model (NS-1 myeloma). Although there are indications in this model that beta-alethine is also effective when intervention is late, beta-alethine is ineffective in an allogeneic murine melanoma model (Cloudman S-91 melanoma). It is inferred that beta-alethine enhances cellular phenotypic expression, function, and vitality in diverse biological systems and may treat certain types of neoplasia. Because atomic spacings between the amide moieties in beta-alethine are the same as in the differentiating agent hexamethylene-bis-acetamide and because the radioprotectors WR 2721 and WR 1065 lack only the carbonyl oxygen of the thiol form (beta-aletheine), biological activities already reported for these compounds are compared with those presented herein for beta-alethine. Although these comparisons have not been made in the same systems, the tentative conclusion is that the amide moieties of beta-alethine may be critical to its potency and lack of obvious toxicity in cell culture and animal models.

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