In mammals Cdk4 (or Cdk6 in some cell types) is required for starting the cell cycle. Recently we showed that Cdk4 is regulated by tyrosine phosphorylation and dephosphorylation, and that this regulation is required for a DNA damage-induced G 1 arrest. We report here that a generic anti-phosphotyrosine antibody can detect tyrosine-phosphorylated Cdk4 and that as revealed by immunoblot detection and kinase assay, this regulation is employed for DNA damage-responsive checkpoint control during cell cycle start from quiescence. In rat ®broblasts traversing G 1 or arrested in G 1 by deprivation of anchorage, Cdk4 does not undergo tyrosine phosphorylation. Tyrosine phosphorylation occurs only during cell's arrest in quiescence and dephosphorylation during their cell cycle start. Ultraviolet irradiation blocks dephosphorylation and concomitant activation of Cdk4, thereby preventing the start of cell cycling. Thus, unlike tyrosine phosphorylation of Cdc2, which controls phase transition in the regular cell cycle, tyrosine phosphorylation of Cdk4 is employed for controlling cell cycle start from quiescence in a rat ®broblast.
The rat fibroblast NRK cells are transformed reversibly by a combination of growth factors. When stimulated with serum, NRK cells rely on cyclin-dependent kinase 4 (Cdk4) for their S phase entry. However, when stimulated with serum containing oncogenic growth factors, they come to rely on either Cdk4 or Cdk6, and their S phase entry cannot be blocked unless both Cdk4 and Cdk6 are immunodepleted. Such change of dependence does not occur in the NRK cell mutants defective in an oncogenic signal pathway and, therefore, deficient in anchorage-independent cell cycle start ability, correlating Cdk6 dependence with this remarkable, cancerassociated phenotype. However, both Cdk4 and Cdk6 are activated upon serum stimulation, and neither the amounts of Cdk6, Cdk4, cyclin D1, and cyclin-dependent kinase inhibitors nor the activities or subcellular localization of Cdk6 and Cdk4 are significantly influenced by oncogenic stimulation. Thus, oncogenic stimulation invokes Cdk6 to participate in a critical step of the cell cycle start in a rat fibroblast, but by a mechanism seemingly unrelated to the regulation of the kinase. Given that many hematopoietic cells employ predominantly Cdk6 for the cell cycle start and perform anchorage-independent growth by nature, our results raise the possibility that the oncogenic stimulation-induced anchorage-independent cell cycle start of NRK is elicited by a mechanism similar to the one used for hematopoietic cell proliferation.
An animal model, using distraction force on adult rabbits, was developed to study the effects of nonweight-bearing on articular cartilage in a moving joint. Histologic evaluation was used to compare the morphology of chondrocytes, safranin O intensity, cartilage thickness, and structural changes between the test and contralateral joints. At 3 and 6 weeks, the chondrocytes in superficial and intermediate zones were round, with an increase in cellular volume density and mean cell volume and with less metachromasia; the safranin O intensity and cartilage thickness were the same as in the controls. In cartilage of the 9-week group, mean cell volume decreased with cell cloning in the superficial zone, while numerical density increased and mean matrix volume per cell decreased in the superficial and intermediate zones. The cartilage, with a 34% reduction in thickness and a 53-72% decrease in safranin O intensity from the superficial to the deep zone, had superficial fibrotic proliferation, surface erosion or depression, and tidemark irregularity. Continuous distraction in a moving joint caused morphological changes in chondrocytes prior to degeneration of cartilage. These results support the hypothesis that the forces perceived by cells may dictate their shape and then stimulate alterations in cellular biochemistry and matrix metabolism.
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