Molecular and cytological investigations of phosphoglucomutase (PGM1) in the K562 cell line

Tomkins, Janine; Fox, María Ofelia Barber; Lovegrove, J. U.; Parrington, Jennifer M.; Hopkinson, D. A.; Whitehouse, David

doi:10.1017/s000348009700599x

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“…The K562 leukemia cell line is spontaneously deficient in PGM (Tomkins et al, 1997). These cells do not express PGM protein, as detected by Western blot, and show very little or no PGM activity (Figure 7a).…”

Section: Pgm Regulation By Pak1 Signalingmentioning

confidence: 99%

Regulation of phosphoglucomutase 1 phosphorylation and activity by a signaling kinase

et al. 2004

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We have identified a novel mechanism of cross-talk between cell signaling and metabolic pathways, whereby the signaling kinase p21-activated kinase 1 (Pak1) binds to, phosphorylates and enhances the enzymatic activity of phosphoglucomutase 1 (PGM), an important regulatory enzyme in cellular glucose utilization and energy homeostasis. Pak1 and PGM were colocalized in model cell systems and showed functional interactions in a physiological setting. Strong direct interaction of PGM with Pak1 but not Pak2, Pak3, or Pak4 was observed. PGM binding was within 75-149 amino acids (aa) of Pak1, while Pak1 binding to PGM was in the N-terminal 96 aa. Pak1-mediated phosphorylation of PGM selectively on threonine 466 significantly increased PGM enzymatic activity and could be blocked by transfection with a dominantnegative Pak1 expression vector and by Pak1-specific small inhibitory RNA. Stable transfection of PGM into PGM-deficient K-562 leukemia cells further demonstrated the role of Pak1 in regulating PGM activity. The results presented here provide new evidence that the cell signaling kinase Pak1 is a novel regulator of glucose metabolism through its phosphorylation and regulation of PGM activity. These findings suggest a new mechanism whereby growth factor signaling may coordinately integrate metabolic regulation with established signaling functions of cell cycle regulation and cell growth.

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Section: Pgm Regulation By Pak1 Signalingmentioning

confidence: 99%