Stability of the replicative Mcm3 protein in proliferating and differentiating human cells.

Mcm proteins are abundant nuclear proteins involved in the regulation of genome replication. Previous experiments had shown that levels of Mcm-specific mRNAs increase at the G1/S phase transition of the cell cycle, but that the amounts of Mcm proteins do not change much during the cell cycle. To learn more about the stability of an Mcm protein we performed experiments which showed that: (i) more than 60% of [35S]methionine pulse-labeled Mcm3 protein appears to be degraded during a 24-h chase in HeLa cells; (ii) the amount of Mcm3 protein significantly decreases during the differentiation of HL60 cells in vitro (whereas another replication-initiation protein, hOrc2, remains fairly constant); and (iii) according to immunohistochemical staining, Mcm3 protein is present in nuclei of cells in the proliferating zone of human epidermal tissue, but in decreasing amounts in nuclei of differentiating cells of the upper cell layers. Our interpretation is that Mcm3 protein is no longer synthesized after initiation of differentiation and slowly disappears at a half-life of approximately 24 h.

[1]  P. Nicotera,et al.  Selective proteolysis of the nuclear replication factor MCM3 in apoptosis. , 1998, Experimental cell research.

[2]  Y. Endo,et al.  HsMCM6: a new member of the human MCM/P1 family encodes a protein homologous to fission yeast Mis5 , 1997, Genes to cells : devoted to molecular & cellular mechanisms.

[3]  M. Fujita,et al.  Immunolocalization of hCDC47 protein in normal and neoplastic human tissues and its relation to growth , 1997, International journal of cancer.

[4]  J. Blow,et al.  Chromatin proteins involved in the initiation of DNA replication. , 1997, Current opinion in genetics & development.

[5]  S. Kearsey,et al.  Cell cycle control of eukaryotic DNA replication. , 1996, Current opinion in genetics & development.

[6]  J. Blow,et al.  The role of MCM/P1 proteins in the licensing of DNA replication. , 1996, Trends in biochemical sciences.

[7]  M. Méchali,et al.  Chromotin binding, nuclear localization and phosphorylation of Xenopus cdc21 are cell‐cycle dependent and associated with the control of initiation of DNA replication. , 1996, The EMBO journal.

[8]  B. Stillman,et al.  Conserved Initiator Proteins in Eukaryotes , 1995, Science.

[9]  M. Starborg,et al.  The murine replication protein P1 is differentially expressed during spermatogenesis. , 1995, European Journal of Cell Biology.

[10]  G. Rubin,et al.  Cell proliferation and DNA replication defects in a Drosophila MCM2 mutant. , 1995, Genes & development.

[11]  R. Knippers,et al.  A human homologue of the yeast replication protein Cdc21. Interactions with other Mcm proteins. , 1995, European journal of biochemistry.

[12]  P. Springer,et al.  Gene trap tagging of PROLIFERA, an essential MCM2-3-5-like gene in Arabidopsis. , 1995, Science.

[13]  H. Hameister,et al.  Expression, phosphorylation and nuclear localization of the human P1 protein, a homologue of the yeast Mcm 3 replication protein. , 1995, Journal of cell science.

[14]  M. Starborg,et al.  A murine replication protein accumulates temporarily in the heterochromatic regions of nuclei prior to initiation of DNA replication. , 1995, Journal of cell science.

[15]  R. Knippers,et al.  Interactions of human nuclear proteins P1Mcm3 and P1Cdc46. , 1995, European journal of biochemistry.

[16]  K. Sugimoto,et al.  DNA polymerase alpha associated protein P1, a murine homolog of yeast MCM3, changes its intranuclear distribution during the DNA synthetic period. , 1994, The EMBO journal.

[17]  B. Tye The MCM2-3-5 proteins: are they replication licensing factors? , 1994, Trends in cell biology.

[18]  Bruce Stillman,et al.  ATP-dependent recognition of eukaryotic origins of DNA replication by a multiprotein complex , 1992, Nature.

[19]  J. Gerdes,et al.  Immunobiochemical and molecular biologic characterization of the cell proliferation-associated nuclear antigen that is defined by monoclonal antibody Ki-67. , 1991, The American journal of pathology.

[20]  M. Monsigny,et al.  Analysis of nuclear sugar-binding components in undifferentiated and in vitro differentiated human promyelocytic leukemia cells (HL60). , 1990, Experimental cell research.

[21]  S. Collins,et al.  The HL-60 promyelocytic leukemia cell line: proliferation, differentiation, and cellular oncogene expression. , 1987, Blood.

[22]  Andreas Richter,et al.  Properties of the human nuclear protein p85Mcm. Expression, nuclear localization and interaction with other Mcm proteins. , 1996, European journal of biochemistry.