Abstract
Serine-threonine kinase 38 (STK38) is a member of the protein kinase A (PKA)/PKG/PKC-family implicated in the regulation of cell division and morphogenesis. However, the molecular mechanisms underlying STK38 stability remain largely unknown. Here, we show that treatment of cells with either heat or the calcium ionophore A23187 induced STK38 degradation. The calpain inhibitor calpeptin suppressed hyperthermia-induced degradation or the appearance of A23187-induced cleaved form of STK38. An in vitro cleavage assay was then used to demonstrate that calpain I directly cleaves STK38 at the proximal N-terminal region. Deletion of the N-terminal region of STK38 increased its stability against hyperthermia. We further demonstrated that the MAPKK kinase (MAP3K) MEKK2 prevented both heat- and calpain-induced cleavage of STK38. MEKK2 knockdown enhanced hyperthermia-induced degradation of STK38. We performed an in vitro MEKK2 assay and identified the key regulatory site in STK38 phosphorylated by MEKK2. Experiments with a phosphorylation-defective mutant demonstrated that phosphorylation of Ser 91 is important for STK38 stability, as the enzyme is susceptible to degradation by the calpain pathway unless this residue is phosphorylated. In summary, we demonstrated that STK38 is a calpain substrate and revealed a novel role of MEKK2 in the process of STK38 degradation by calpain.
Highlights
Serine/threonine kinase 38 (STK38), known as nuclear Dbf2-related 1 (NDR1), is a member of the highly conserved NDR family[1,2]
We further examined the effects of various stimuli on the expression and phosphorylation status of Serine-threonine kinase 38 (STK38) in human cancer cell lines and found that STK38 protein level decreased proportionally to the duration of hyperthermic treatment at 44 °C (Fig. 1A, upper panel)
These results suggest that the decreased amount of STK38 after hyperthermia may be due to the instability of STK38 protein or the down-regulation of STK38 gene expression
Summary
Serine/threonine kinase 38 (STK38), known as nuclear Dbf2-related 1 (NDR1), is a member of the highly conserved NDR family[1,2]. Cbk[1] is involved in the control of cell morphology[3], whereas Dbf[2] regulates mitotic exit and cytokinesis[4]. Another member of this family in Schizosaccharomyces pombe, Orb[6], functions in cell polarity and morphogenesis[5]. To elucidate the molecular mechanisms of STK38 stability, in the present study, we investigated the effects of cellular stressors on its protein expression level in LU99, HeLa, and COS-7 cells
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