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Author

Hui Zhang

Bio: Hui Zhang is an academic researcher from University of Nevada, Las Vegas. The author has contributed to research in topics: Ubiquitin ligase & Cyclin-dependent kinase. The author has an hindex of 32, co-authored 63 publications receiving 11384 citations. Previous affiliations of Hui Zhang include Yale University & Cold Spring Harbor Laboratory.


Papers
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Journal ArticleDOI
16 Dec 1993-Nature
TL;DR: It is found that over expression of p21 inhibits the activity of each member of the cyclin/CDK family, and this results indicate that p21 may be a universal inhibitor of cyclin kinases.
Abstract: Deregulation of cell proliferation is a hallmark of neoplastic transformation. Alteration in growth control pathways must translate into changes in the cell-cycle regulatory machinery, but the mechanism by which this occurs is largely unknown. Compared with normal human fibroblasts, cells transformed with a variety of viral oncoproteins show striking changes in the subunit composition of the cyclin-dependent kinases (CDKs). In normal cells, CDKs exist predominantly in multiple quaternary complexes, each containing a CDK, cyclin, proliferating cell nuclear antigen and the p21 protein. However, in many transformed cells, proliferating cell nuclear antigen and p21 are lost from these multiprotein enzymes. Here we have investigated the significance of this phenomenon by molecular cloning of p21 and in vitro reconstitution of the quaternary cell-cycle kinase complexes. We find that p21 inhibits the activity of each member of the cyclin/CDK family. Furthermore, overexpression of p21 inhibits the proliferation of mammalian cells. Our results indicate that p21 may be a universal inhibitor of cyclin kinases.

3,442 citations

Journal ArticleDOI
30 Oct 1992-Cell
TL;DR: Findings link a human putative G1 cyclin that is associated with oncogenesis with a well-characterized DNA replication and repair factor with a quaternary complex of D cyclin, CDK, PCNA, and p21 and that many combinatorial variations may assemble in vivo.

1,022 citations

Journal ArticleDOI
TL;DR: The studies suggest that PTEN regulates the phosphatidylinositol 3,4, 5,-trisphosphate and Akt signaling pathway and consequently modulates two critical cellular processes: cell cycle progression and cell survival.
Abstract: To investigate the molecular basis of PTEN-mediated tumor suppression, we introduced a null mutation into the mouse Pten gene by homologous recombination in embryonic stem (ES) cells. Pten−/− ES cells exhibited an increased growth rate and proliferated even in the absence of serum. ES cells lacking PTEN function also displayed advanced entry into S phase. This accelerated G1/S transition was accompanied by down-regulation of p27KIP1, a major inhibitor for G1 cyclin-dependent kinases. Inactivation of PTEN in ES cells and in embryonic fibroblasts resulted in elevated levels of phosphatidylinositol 3,4,5,-trisphosphate, a product of phosphatidylinositol 3 kinase. Consequently, PTEN deficiency led to dosage-dependent increases in phosphorylation and activation of Akt/protein kinase B, a well-characterized target of the phosphatidylinositol 3 kinase signaling pathway. Akt activation increased Bad phosphorylation and promoted Pten−/− cell survival. Our studies suggest that PTEN regulates the phosphatidylinositol 3,4,5,-trisphosphate and Akt signaling pathway and consequently modulates two critical cellular processes: cell cycle progression and cell survival.

818 citations

Journal ArticleDOI
Lyuben M. Tsvetkov1, Kun-Huei Yeh1, Soo-Jung Lee1, Hong Sun1, Hui Zhang1 
TL;DR: The data suggest that SCF(Skp2) specifically targets p27 for degradation during cell-cycle progression, and indicates that this protein complex is implicated in control of the G1-S transition in the cell cycle.

799 citations

Journal ArticleDOI
TL;DR: It is shown that p21-containing complexes exist in both catalytically active and inactive forms, which challenges the current view that active cyclin kinases function only in the binary state and reveals the subtlety with which tumor-suppressor proteins modulate the cell cycle.
Abstract: In normal fibroblasts CDKs exist predominantly in p21/PCNA/cyclin/CDK quaternary complexes, whereas in p53-deficient cells, p21 expression is depressed and the kinases are reduced to a cyclin/CDK binary state. p21 is a universal cyclin kinase inhibitor, but we show here that p21-containing complexes exist in both catalytically active and inactive forms. This finding challenges the current view that active cyclin kinases function only in the binary state and reveals the subtlety with which tumor-suppressor proteins modulate the cell cycle.

652 citations


Cited by
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Journal ArticleDOI
TL;DR: There is growing evidence that aging involves, in addition, progressive changes in free radical-mediated regulatory processes that result in altered gene expression.
Abstract: At high concentrations, free radicals and radical-derived, nonradical reactive species are hazardous for living organisms and damage all major cellular constituents. At moderate concentrations, how...

9,131 citations

Journal ArticleDOI
TL;DR: This work challenges previous assumptions about how the G1/S transition of the mammalian cell cycle is governed, helps explain some enigmatic features of cell cycle control that also involve the functions of the retinoblastoma protein (Rb) and the INK4 proteins, and changes the thinking about how either p16 loss or overexpression of cyclin D-dependent kinases contribute to cancer.
Abstract: Mitogen-dependent progression through the first gap phase (G1) and initiation of DNA synthesis (S phase) during the mammalian cell division cycle are cooperatively regulated by several classes of cyclin-dependent kinases (CDKs) whose activities are in turn constrained by CDK inhibitors (CKIs). CKIs that govern these events have been assigned to one of two families based on their structures and CDK targets. The first class includes the INK4 proteins (inhibitors of CDK4), so named for their ability to specifically inhibit the catalytic subunits of CDK4 and CDK6. Four such proteins [p16 (Serrano et al. 1993), p15 (Hannon and Beach 1994), p18 (Guan et al. 1994; Hirai et al. 1995), and p19 (Chan et al. 1995; Hirai et al. 1995)] are composed of multiple ankyrin repeats and bind only to CDK4 and CDK6 but not to other CDKs or to D-type cyclins. The INK4 proteins can be contrasted with more broadly acting inhibitors of the Cip/Kip family whose actions affect the activities of cyclin D-, E-, and A-dependent kinases. The latter class includes p21 (Gu et al. 1993; Harper et al. 1993; El-Deiry et al. 1993; Xiong et al. 1993a; Dulic et al. 1994; Noda et al. 1994), p27 (Polyak et al. 1994a,b; Toyoshima and Hunter 1994), and p57 (Lee et al. 1995; Matsuoka et al. 1995), all of which contain characteristic motifs within their amino-terminal moieties that enable them to bind both to cyclin and CDK subunits (Chen et al. 1995, 1996; Nakanishi et al. 1995; Warbrick et al. 1995; Lin et al. 1996; Russo et al. 1996). Based largely on in vitro experiments and in vivo overexpression studies, CKIs of the Cip/Kip family were initially thought to interfere with the activities of cyclin D-, E-, and A-dependent kinases. More recent work has altered this view and revealed that although the Cip/Kip proteins are potent inhibitors of cyclin Eand A-dependent CDK2, they act as positive regulators of cyclin Ddependent kinases. This challenges previous assumptions about how the G1/S transition of the mammalian cell cycle is governed, helps explain some enigmatic features of cell cycle control that also involve the functions of the retinoblastoma protein (Rb) and the INK4 proteins, and changes our thinking about how either p16 loss or overexpression of cyclin D-dependent kinases contribute to cancer. Here we focus on the biochemical interactions that occur between CKIs and cyclin Dand E-dependent kinases in cultured mammalian cells, emphasizing the manner by which different positive and negative regulators of the cell division cycle cooperate to govern the G1-to-S transition. To gain a more comprehensive understanding of the biology of CDK inhibitors, readers are encouraged to refer to a rapidly emerging but already extensive literature (for review, see Elledge and Harper 1994; Sherr and Roberts 1995; Chellappan et al. 1998; Hengst and Reed 1998a; Kiyokawa and Koff 1998; Nakayama 1998; Ruas and Peters 1998).

6,076 citations

Journal ArticleDOI
19 Nov 1993-Cell
TL;DR: In this article, an improved two-hybrid system was employed to isolate human genes encoding Cdk-interacting proteins (Cips) and found that CIP1 is a potent, tight-binding inhibitor of Cdks and can inhibit the phosphorylation of Rb by cyclin A-Cdk2.

5,726 citations

Journal ArticleDOI
06 Dec 1996-Science
TL;DR: Genetic alterations affecting p16INK4a and cyclin D1, proteins that govern phosphorylation of the retinoblastoma protein and control exit from the G1 phase of the cell cycle, are so frequent in human cancers that inactivation of this pathway may well be necessary for tumor development.
Abstract: Uncontrolled cell proliferation is the hallmark of cancer, and tumor cells have typically acquired damage to genes that directly regulate their cell cycles. Genetic alterations affecting p16(INK4a) and cyclin D1, proteins that govern phosphorylation of the retinoblastoma protein (RB) and control exit from the G1 phase of the cell cycle, are so frequent in human cancers that inactivation of this pathway may well be necessary for tumor development. Like the tumor suppressor protein p53, components of this "RB pathway," although not essential for the cell cycle per se, may participate in checkpoint functions that regulate homeostatic tissue renewal throughout life.

5,509 citations

Journal ArticleDOI
07 Mar 1997-Cell
TL;DR: It is shown that expression of oncogenic ras in primary human or rodent cells results in a permanent G1 arrest, and that the onset of cellular senescence does not simply reflect the accumulation of cell divisions, but can be prematurely activated in response to an onCogenic stimulus.

4,770 citations