Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many genes are involved in cell cycle control, DNA repair and induction of cell death. Alterations in these genes have been responsible for the development of cancer as well as for resistance to cancer therapy. Recently, an emerging family of bcl2-like genes has been identified that plays a role in the regulation of cell death. Its members are highly conserved in several domains which have been shown to be important for homodimerization or heterodimerization. The ratio between BAX/BCL2 heterodimers and BAX/BAX homodimers appears to be pivotal in deciding the life of death of a cell. We recently detected mutations in evolutionary highly conserved domains of the bax gene in cell lines derived from hematologic malignancies. Similar artificially generated mutations in other bcl2-like family members bcl2, bclxl, or ced9 have been shown to alter their function. This suggests a role for bax mutations in the multi-step pathogenesis of hematological malignancies.
Leukemia 1995 Nov
PMID:Bax mutations in cell lines derived from hematological malignancies. 747 70

This review attempts to provide current information on the role played by the p53 gene in normal and leukemic hematopoiesis with particular emphasis on chronic myeloid leukemia. On the basis of the currently available data we can argue that p53 acts as a negative regulator of proliferation of myeloid mature cells and CD34+ progenitors, and its action is mediated through changes in cell cycle kinetics, mainly before the S phase. The p53-dependent pathway is also regulated by several proteins, including p16, p21, p27 (cyclin-dependent kinase [CDK] inhibitors), and a few oncogenes (bcl-2, bax, MDM-2). Although there is some information about the changes in the p53 gene seen in various types of leukemia, the functions and biological importance of these changes in the pathogenesis of leukemia are still largely elusive. During the past several years, accumulated evidence suggests that changes in the p53 gene are commonly associated with blast crisis of chronic myeloid leukemia (CML) but rarely with chronic phase, and they are represented by rearrangements, deletions and point mutations. As for most of the tumors, the majority of point mutations occur between exons 4 and 8 (hot regions). In patients with CML in blastic crisis the most frequent mechanism of p53 inactivation is complete deletion of one allele in association with a point mutation in the remaining allele.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of p53 in leukemogenesis of chronic myeloid leukemia. 754 4

The biological activity of a novel synthetic retinoid 6-[3-(1-adamantyl)-4-hydroxyphenyl]-2-naphthalene carboxylic acid (AHPN) was investigated in human breast carcinoma (HBC) cells. Although capable of selective binding to the RAR gamma nuclear receptor, AHPN inhibited the growth of a number of HBC cell lines via RAR- or RXR-independent pathways. AHPN also inhibited the growth of the human leukemia cell line HL-60R which does not possess functional RARs. RA significantly inhibited AP-1 mediated gene activation in MCF-7 cells while AHPN displayed no such anti-AP-1 activity. Retinoids normally are cytostatic in their inhibition of breast carcinoma growth and permit cell proliferation upon their removal, wher as AHPN induced G0/G1 arrest within 6h followed by apoptosis. In MCF-7 cells that harbor wild type p53, AHPN-induced G0/G1 arrest and apoptosis was accompanied by p53-independent regulation of WAF1/CIP1 as well as bax mRNA levels while bcl-2 mRNA levels were decreased. In MDA-MB-231 cells which possess a mutant p53, AHPN-mediated G0/G1 arrest and apoptosis was also associated with a concomitant up regulation of WAF1/CIP1 mRNA while these cells did not express bax or bcl-2 messages. Thus AHPN represents a novel retinoid that induces G0/G1 arrest and apoptosis via a unique pathway which appears to involve activation of known downstream effectors of p53 in a p53-independent manner.
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PMID:p53 independent G0/G1 arrest and apoptosis induced by a novel retinoid in human breast cancer cells. 763 Jun 33

Employing the myeloblastic leukemia M1 cell line, which does not express endogenous p53, and genetically engineered variants, it was recently shown that activation of p53, using a p53 temperature-sensitive mutant transgene (p53ts), resulted in rapid apoptosis that was delayed by high level ectopic expression of bcl-2. In this report, advantage has been taken of these M1 variants to investigate the relationship between p53-mediated G1 arrest and apoptosis. Flow cytometric cell cycle analysis has provided evidence that activation of wild-type (wt) p53 function in M1 cells resulted in the induction of G1 growth arrest; this was clearly seen in the M1p53/bcl-2 cells because of the delay in apoptosis that unmasked p53-induced G1 growth arrest. This finding was further corroborated at the molecular level by analysis of the expression and function of key cell cycle regulatory genes in M1p53 versus M1p53/bcl-2 cells after the activation of wt p53 function; events that take place at early times during the p53-induced G1 arrest occur in both the M1p53 and the M1p53/bcl-2 cells, whereas later events occur only in the M1p53/bcl-2 cells, which undergo delayed apoptosis, thereby allowing the cells to complete G1 arrest. Finally, it was observed that a spectrum of p53 target genes implicated in p53-induced growth suppression and apoptosis were similarly regulated, either induced (gadd45, waf1, mdm2, and bax) or suppressed (c-myc and bcl-2), after activation of wt p53 function in M1p53 and M1p53/bcl-2 cells. Taken together, these findings show that wt p53 can simultaneously induce the genetic programs of both G1 growth arrest and apoptosis within the same cell type, in which the genetic program of cell death can proceed in either G1-arrested (M1p53/bcl-2) or cycling (M1p53) cells. These findings increase our understanding of the functions of p53 as a tumor suppressor and how alterations in these functions could contribute to malignancy.
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PMID:Dissection of the genetic programs of p53-mediated G1 growth arrest and apoptosis: blocking p53-induced apoptosis unmasks G1 arrest. 774 28

The p53 tumor suppressor gene product can induce apoptotic cell death through an unknown mechanism. Here we demonstrate that a temperature-sensitive p53 induces temperature-dependent decreases in the expression of the apoptosis-suppressing gene bcl-2 in the murine leukemia cell M1, while simultaneously stimulating increases in the expression of bax, a gene which encodes a dominant-inhibitor of the Bcl-2 protein. Mice deficient in p53 exhibit increases in Bcl-2 and decreases in Bax protein levels in several tissues as determined by immunohistochemical and immunoblot methods. The findings suggest a potential mechanism by which p53 regulates apoptosis, as well as responses to radiation and chemotherapeutic drugs in cancer.
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PMID:Tumor suppressor p53 is a regulator of bcl-2 and bax gene expression in vitro and in vivo. 818 79

Parental and multidrug resistant HL60 leukemia cell lines were used to study coupling of expression of apoptotic/cytostatic (bcl-2, bax, bclxL, p21/Waf1, and c-myc) genes during differentiation. The multidrug resistant HL60 cell line, HL60/ADR, was less sensitive than parental cells to cytostatic activity of low (0.4-2 ng/ml) doses of PMA. However, during treatment with standard differentiating doses of PMA (10 ng/ml), no difference between the two cell lines in cytostasis and differentiation was found. Downregulation of c-myc and upregulation of p21/Waf1 proteins showed the same time-course in both cell lines. The bcl-2 mRNA was rapidly downregulated while bax and bclxL gene expression was not altered in both differentiating HL60 and HL60/ADR cells. Significant downregulation of bcl-2 protein occurred only in parental HL60 cells. In HL60/ADR, despite rapid cessation of bcl-2 protein synthesis, almost no change in steady-state bcl-2 protein level was found. The lack of bcl-2 protein downregulation was a result of the prolonged half-life of this protein in HL60/ADR cells. Thus, although downregulation of bcl-2 mRNA is coupled to differentiation, actual loss of bcl-2 protein is not required for accomplishment of the differentiation program.
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PMID:bcl-2 protein downregulation is not required for differentiation of multidrug resistant HL60 leukemia cells. 862 7

Bcl-2 expression is able to confer drug resistance to chemotherapy-induced programmed cell death. Bax, a partner protein of bcl-2 with extensive aminoacid homology, is a promoter of apoptosis. Apparently the equilibrium of bcl-2 and bax hetero- and homodimers is important for the susceptibility of cells for stimuli inducing apoptosis. In this study we determined the role of bcl-2 to bax expression ratio, bcl-xL and ICE expression level for predicting clinical response to chemotherapy in acute myelold leukemia (AML). Bone marrow samples from 14 patients with AML were examined using an immunophosphatase staining method. Initial bone marrow blast portion was over 80% in all cases. Clinical response was defined by bone marrow aspiration 4 weeks after treatment initiation. There was a significant correlation between bcl-2 to bax expression ratio and clinical response (P < 0.005). No patients with a bcl-2/bax ratio >1.0 achieved complete remission after induction therapy. No significant correlation between bcl-2- and p-glycoprotein-expression was observed in this group. Conversely a high expression of ICE indicated a good clinical response (P < 0.01), whereas expression of bcl-xL had no influence on therapeutic success in this group.
Leukemia 1996 Jul
PMID:Association of bcl-2, bax, bcl-xL and interleukin-1 beta-converting enzyme expression with initial response to chemotherapy in acute myeloid leukemia. 865 95

Hematopoietic cells require certain cytokines including colony-stimulating factors and interleukins to maintain viability. Without these cytokines the program of apoptotic cell death is activated. Cells from many myeloid leukemias require cytokines for viability, and apoptosis is also activated in these leukemic cells after cytokine withdrawal resulting in reduced leukemogenicity. The same cytokines protect normal and leukemic cells from induction of apoptosis by irradiation and cytotoxic chemotherapeutic compounds. This suggests that decreasing the levels of viability inducing cytokines may increase the effectiveness of cytotoxic anti-cancer therapy. The susceptibility of normal and cancer cells to induction of apoptosis is also regulated by the balance between apoptosis-inducing genes such as the tumor suppressor wild-type p53, and c-myc and bax, and apoptosis-suppressing genes such as the oncogene mutant p53, and bcl-2 and bcl-XL. Cell susceptibility to induction of apoptosis in leukemic cells could be enhanced by increased expression of apoptosis-inducing genes and/or decreased expression of apoptosis-suppressing genes. Modulation of expression of apoptosis-regulating genes should thus also be useful for improvement of anti-cancer therapy.
Leukemia 1996 Jun
PMID:Control of apoptosis in hematopoiesis and leukemia by cytokines, tumor suppressor and oncogenes. 866 46

All-trans retinoic acid (RA) is the first highly effective differentiation-inducing agent for remission induction in patients with acute promyelocytic leukemia. However, remissions are short-lived because the treatment fails to induce complete differentiation and fails to eradicate the malignant clone. To eliminate rapidly the malignant clone, in analogy with aggressive chemotherapy, the combination of potent differentiation- and apoptosis-inducing drugs working through different receptors and signal pathways may be useful. The active form of vitamin D3 (1,25-dihydroxyvitamin D3; 1,25(OH)2D3) inhibits proliferation and induces differentiation of myeloid leukemic cells. The 9-cis-RA, unlike all-trans-RA which binds only retinoic acid receptors, is a high affinity ligand for both retinoic acid receptors and retinoid X receptors. The aim of this study was to evaluate the therapeutic potential of combining a vitamin D(3) analogue, 20-epi-22-oxa-24a,26a,27a-tri-homo-1alpha,25(OH) 2D, (KH 1060), which belongs to the family of potent 20-epi-1,25(OH),D3 analogues, with 9-cis-RA by assessing their effects on the proliferation, differentiation, and apoptosis of the human leukemia cell line HL-60 in vitro. Our data show that KH 1060 alone is a very potent inhibitor of clonal proliferation of HL-60, but this effect is reversible, and that 9-cis-RA alone is a weak inhibitor of clonal proliferation of HL-60 cells. In contrast, the combination of KH 1060 and 9-cis-RA synergistically and irreversibly inhibited the clonal proliferation of HL-60 cells and induced apoptosis, as detected by morphological changes and DNA fragmentation. This combination also affected the expression of apoptosis-related genes. The bcl-2 protein became nearly undetectable, and expression of bax protein increased slightly (the bax:bcl-2 ratio was 14-fold higher than in untreated cells). Differentiation of treated HL-60 cells was assessed by their ability to produce superoxide, as measured by reduction of nitro blue tetrazolium, positive staining for alpha-naphthyl acetate esterase, phagocytosis, morphology, and analysis of membrane-bound differentiation markers with two-color immunofluorescence. Treatment with the combination of KH 1060 and 9-cis-RA was a potent inducer of differentiation of HL-60, with the cells developing a myelomonocytic phenotype. In summary, our data demonstrate that the combination of both KH 1060 and 9-cis-RA irreversibly and synergistically inhibited clonal growth, induced differentiation and apoptosis of HL-60 cells concomitantly with a very marked decreased expression of bcl-2, and increased the bax:bcl-2 ratio. This drug combination may have important therapeutic significance.
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PMID:Combination of a potent 20-epi-vitamin D3 analogue (KH 1060) with 9-cis-retinoic acid irreversibly inhibits clonal growth, decreases bcl-2 expression, and induces apoptosis in HL-60 leukemic cells. 875 28

Mice deficient for B cell leukemia/lymphoma gene 2 [bcl-2(-/-) mice] manifest congenital renal hypoplasia and develop multicystic kidney disease and renal failure postnatally. To characterize postpartum renal development, to identify the cellular origin of the cysts, and to provide insight into the role that bcl-2 deficiency plays in the cystogenic process, we examined the morphology of kidneys from bcl-2 (-/-) mice and wild-type littermates [bcl-2 (+/+)] from birth (P0) to postpartum day 28 (P28), determined whether abnormalities of cellular proliferation and apoptosis accompany cyst development, and characterized expression of the bcl-2-related protein, bax. Between P0 and P7, kidneys from bcl-2 (-/-) and bcl-2 (+/+) mice undergo a comparable increase in weight and have similar histological appearances. However, during the next 2 wk of life, weight gain in kidneys from bcl-2 (-/-) mice is reduced compared with that in kidneys from bcl-2 (+/+) animals, and cysts develop in tubules with staining characteristics of proximal tubule, distal tubule/medullary thick ascending limb of Henle's loop, and collecting duct. Unaffected glomeruli and proximal tubules in kidneys of bcl-2 (-/-) mice undergo compensatory growth. Cystogenesis is accompanied by enhanced incorporation of 5-bromo-2'-deoxyuridine in cells within cortex and medulla and apoptosis of cells within cysts and in the renal interstitium. Bax protein is expressed in the distal tubule in kidneys of bcl-2 (+/+) and bcl-2 (-/-) mice and in some, but not all cysts. We conclude that abnormal regulation of DNA synthesis and apoptosis accompany cystogenesis in bcl-2 (-/-) mice during postpartum kidney development. Continued expression of bax could enhance apoptotic cell death.
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PMID:Abnormal postpartum renal development and cystogenesis in the bcl-2 (-/-) mouse. 876 Feb 59


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