Protein Kinase CK2 Regulates the Dimerization of Histone Deacetylase 1 (HDAC1) and HDAC2 during Mitosis

Histone deacetylase 1 (HDAC1) and HDAC2 are components of corepressor complexes that are involved in chromatin remodeling and regulation of gene expression by regulating dynamic protein acetylation. HDAC1 and -2 form homo- and heterodimers, and their activity is dependent upon dimer formation. Phosphorylation of HDAC1 and/or HDAC2 in interphase cells is required for the formation of HDAC corepressor complexes. In this study, we show that during mitosis, HDAC2 and, to a lesser extent, HDAC1 phosphorylation levels dramatically increase. When HDAC1 and -2 are displaced from the chromosome during metaphase, they dissociate from each other, but each enzyme remains in association with components of the HDAC corepressor complexes Sin3, NuRD, and CoREST as homodimers. Enzyme inhibition studies and mutational analyses demonstrated that protein kinase CK2-catalyzed phosphorylation of HDAC1 and -2 is crucial for the dissociation of these two enzymes. These results suggest that corepressor complexes, including HDAC1 or HDAC2 homodimers, might target different cellular proteins during mitosis.     

Premature senescence in human breast cancer and colon cancer cells by tamoxifen-mediated reactive oxygen species generation

Aims

Cellular senescence is an important tumor suppression process in vivo. Tamoxifen is a well-known anti-breast cancer drug; however, its molecular function is poorly understood. Here, we examined whether tamoxifen promotes senescence in breast cancer and colon cancer cells for the first time.

Main methods

Human breast cancer MCF-7, T47D, and MDA-MB-435 and colorectal cancer HCT116 cells were treated with tamoxifen. Cellular senescence was measured by SA-β-gal staining and based on the protein expression of p53 and p21^Cip1/WAF1. The production of reactive oxygen species (ROS) was determined by staining with CM-H₂DCFDA and dihydroethidium (DHE). CK2 activity was assessed with a specific peptide substrate.

Key findings

Tamoxifen promoted senescence phenotype and ROS generation in MCF-7 and HCT116 cells. The ROS scavenger, N-acetyl-l-cysteine (NAC), and the NADPH oxidase inhibitor, apocynin, almost completely abolished this event. Tamoxifen inhibited the catalytic activity of CK2. Overexpression of CK2α antagonized senescence mediated by tamoxifen, indicating that tamoxifen induced senescence via a CK2-dependent pathway. A well-known CK2 inhibitor, 5,6-dichloro-1-β-d-ribofuranosylbenzimidazole (DRB), also stimulated ROS production and senescence in MCF-7 cells. Finally, experiments using T47D (wild-type p53) and MDA-MB-435 (mutant p53) cell lines suggested that tamoxifen induces p53-independent ROS production as well as p53-dependent senescence in breast cancer cells.

Significance

These results demonstrate that tamoxifen promotes senescence through a ROS–p53–p21^Cip1/WAF1 dependent pathway by inhibiting CK2 activity in breast cancer and colon cancer cells.     

Effects of acute CS2 intoxication on protein metabolism in rat brain

The effect of acute CS₂ exposure on the rat brain protein metabolism was studied with control and phenobarbitone pretreated adult male rats 1, 4 and 46 h after exposure. Increased activity of acid proteinase was detected in both test groups 1 and 4 h after exposure and it was accompanied by changes in ¹⁴C-labelled leucine turnover as well as in RNA content. The changes were more conspicuous in cerebellum than in brain in both test groups while phenobarbitone pretreatment modified the brain response towards intoxication. This modification probably represents inherent effects of barbiturate on brain protein metabolism as well as altered metabolism of CS₂.The activities of creatine kinase and nonspecific cholinesterase displayed only subtle changes as assayed in cerebral homogenate and serum. Thus a single acute CS₂ intoxication apparently causes definitive transient changes in brain protein metabolism; serum enzyme determinations may not reflect the magnitude of these changes.     

Kinase domain autophosphorylation rewires the activity and substrate specificity of CK1 enzymes

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Ligation of restriction endonuclease-generated DNA fragments using immobilized T4 DNA ligase

Phosphorylation of terminal deoxynucleotidyl transferase within leukemic cells has been demonstrated, using ³²P labelling of intact cells in culture, followed by immunoprecipitation of the cellular extracts using an anti-terminal transferase antiserum. The phosphate linkage was found to involve serine and threonine residues. Purified calf thymus terminal transferase served as a substrate for cyclic AMP independent protein kinase obtained from leukemic cells. Phosphorylation $\text{in vitro}$ of terminal transferase was accompanied by increased activity and decreased inhibition by excess ribo-ATP. These results indicate that terminal transferase is a physiologic cyclic AMP independent protein kinase substrate, and that this reaction may be important in its control.     

ABHD4 regulates adipocyte differentiation in vitro but does not affect adipose tissue lipid metabolism in mice

Alpha/beta hydrolase domain-containing protein 4 (ABHD4) catalyzes the deacylation of N-acyl phosphatidyl-ethanolamine (NAPE) and lyso-NAPE to produce glycerophospho-N-acyl ethanolamine (GP-NAE). Through a variety of metabolic enzymes, NAPE, lyso-NAPE, and GP-NAE are ultimately converted into NAE, a group of bioactive lipids that control many physiological processes including inflammation, cognition, food intake, and lipolysis (i.e., oleoylethanolamide or OEA). In a diet-induced obese mouse model, adipose tissue Abhd4 gene expression positively correlated with adiposity. However, it is unknown whether Abhd4 is a causal or a reactive gene to obesity. To fill this knowledge gap, we generated an Abhd4 knockout (KO) 3T3-L1 pre-adipocyte. During adipogenic stimulation, Abhd4 KO pre-adipocytes had increased adipogenesis and lipid accumulation, suggesting Abhd4 is responding to (a reactive gene), not contributing to (not a causal gene), adiposity, and may serve as a mechanism for protecting against obesity. However, we did not observe any differences in adiposity and metabolic outcomes between whole-body Abhd4 KO or adipocyte-specific Abhd4 KO mice and their littermate control mice (both male and female) on chow or a high-fat diet. This might be because we found that deletion of Abhd4 did not affect NAE such as OEA production, even though Abhd4 was highly expressed in adipose tissue and correlated with fasting adipose OEA levels and lipolysis. These data suggest that ABHD4 regulates adipocyte differentiation in vitro but does not affect adipose tissue lipid metabolism in mice despite nutrient overload, possibly due to compensation from other NAPE and NAE metabolic enzymes.     

Glucose-induced CRL4COP1-p53 axis amplifies glycometabolism to drive tumorigenesis

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Incomplete development of human spermatozoa is associated with increased creatine phosphokinase concentration and abnormal head morphology

Our previous creatine phosphokinase (CK) activity studies in human sperm revealed differences among men and among sperm populations within the same specimen. Samples with low sperm concentrations, high incidence of abnormal sperm morphology, and diminished fertility had higher per sperm CK activity. In the present work, we demonstrated, with ¹⁴C-FDNB covalent CK active site modification and with direct CK immunocytochemistry, that the higher CK activity is related to an increased content of CK and of other proteins in sperm. Also, sperm heads with higher CK content were significantly larger and rounder and showed a higher incidence of amorph configuration. We suggest that these biochemical and morphological irregularities are related and are due to a failure of spermatogenesis, more specifically, to a higher retention of cytoplasm, which in normal sperm development is lost to the Sertoli cells as residual bodies. Thus higher CK activity and larger or irregular head size in human sperm signify cellular immaturity and a failure to complete spermatogenesis. © 1993 Wiley-Liss, Inc.     

CK2 Inhibits TIMELESS Nuclear Export and Modulates CLOCK Transcriptional Activity to Regulate Circadian Rhythms

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