50486

G0S2

-;G0/G1 switch 2;G0S2;G0/G1 switch 2

G0/G1 switch protein 2|G0/G1 switch regulatory protein 2|G0/G1switch 2

1q32.2

protein-coding

G0/G1 switch gene 2 (G0S2) is a basic protein with ill-defined function that inhibits the proliferation of hematopoietic stem cells. Herein, we show that treatment of K562 cells with 5-azacytidine (5-Aza) resulted in a 24-fold increase in G0S2 expression and a reduction in cell growth. Conversely, gene demethylation in the presence of G0S2-specific shRNA restored proliferation, further supporting an inhibitory role for G0S2 in cell proliferation. Elevated levels of G0S2 inhibited the division of K562 cells by sequestering the nucleolar phosphoprotein nucleolin in the cytosol. G0S2 inhibited the proliferation of leukemia cells in vivo in xenograft models. Collectively, our data identify a new mechanism that controls proliferation in K562 cells, suggesting a possible tumor suppressor function in leukemia cells.

G 0/G 1 switch gene 2 (G0S2) is a protein that was first identified in a search for lymphocyte G 0/G 1 switch genes. A direct role for G0S2 in cell cycle regulation has proven elusive. Yet, there is prior evidence for G0S2 functioning in tumor suppression, immune regulation and lipolysis. To explore definitively G0S2 functions, mice lacking G0S2 were generated and characterized. G0S2(-/-) mice were born at a Mendelian ratio and were phenotypically normal, with the exception of a possible lactation defect. G0S2(-/-) female mice carried viable pups to term, but could not typically sustain them beyond 48 h. G0S2 is shown here to be most highly expressed in adipose tissue. It is also expressed in liver, skeletal muscle, lung, ventricles of the heart, and components of the kidney. G0S2 loss significantly decreased relative body weight gain as compared with wild-type (WT) (G0S2(+/+)) mice, with a significant decrease in gonadal fat pad weight and a significant increase in serum glycerol levels. This decreased relative body weight gain is not associated with a significant decrease in food intake or increase in activity of G0S2(-/-) mice. In fact, G0S2(-/-) mice were significantly less active at night than G0S2(+/+) mice. When fed with a high fat diet (45% fat diet), G0S2 loss did not prevent diet-induced obesity in mice. Intriguingly, G0S2 loss improved acute cold tolerance, augmenting expression of genes involved in thermogenesis. In summary, in vivo roles for G0S2 were found in lactation, energy balance, and thermogenesis. This study provides a basis for tumor suppressive effects of G0S2 by regulating lipolysis.