Institution: | aRaabe College of Pharmacy, Department of Pharmaceutical and Biomedical Sciences, Ohio Northern University, 525 South Main, Ada, OH 45810, United States bDepartment of Natural Sciences, Crichton College, 255 North Highland, Memphis, TN 38111,United States cVeterans Administration Medical Center, 1030 Jefferson Avenue, Memphis, TN 38107, United States dDepartment of Biochemistry, 800 Dunlop Avenue, University of Tennessee, Memphis, TN 38163, United States |
Abstract: | Exposure of murine erythroleukemia cells (MELCs) to nicotinamide (NA) or its synthetic analog N′-methylnicotinamide (N′-MN) reduces cell growth and induces terminal differentiation, marked by increased heme and globin accumulation. On the contrary, 1-methylnicotinamide (1-MN), the primary metabolite of excess NA, was found to stimulate cell growth and reduce spontaneous differentiation of cultured MELCs. Log phase MELCs exhibited up to 50% higher cell density above untreated cells when cultured for up to 96 h with 2.5 mM 1-MN. When combined with NA or several chemically-unrelated inducers of hemoglobin synthesis in cultured MELCs, 1-MN reduced the globin mRNA levels and heme accumulation by 40–80%. 1-MN was able to inhibit heme production if present during only the first 24–48 h after NA exposure. Pre-treatment with 1-MN could not confer resistance of cells to effects of NA, suggesting the inhibition is reversible. Commitment to differentiate in semisolid medium by the most potent inducer, 5 mM N′-MN, was inhibited up to 95% by 2.5 mM concentrations of 1-MN. It appears that 1-MN has opposing effects on growth and induction of differentiation than those seen in MELC cultures exposed to NA or N′-MN. |