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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An isochromosome of the long arm of chromosome 17, i(17q), is the most frequent genetic abnormality observed during the disease progression of Philadelphia chromosome-positive chronic myeloid leukemia (CML), and has been described as the sole anomaly in various other hematologic malignancies. The i(17q) hence plays a presumably important pathogenetic role both in leukemia development and progression. This notwithstanding, the molecular consequences of this abnormality have not been investigated in detail. We have analyzed 21 hematologic malignancies (8 CML in
blast crisis
, 8 myelodysplastic syndromes [MDS], 2 acute myeloid leukemias, 2 chronic lymphocytic leukemias, and 1 acute lymphoblastic leukemia) with i(17q) by fluorescence in situ hybridization (FISH). Using a yeast artificial chromosome (YAC) contig, derived from the short arm of chromosome 17, all cases were shown to have a breakpoint in 17p. In 12 cases, the breaks occurred within the Smith-Magenis Syndrome (SMS) common deletion region in 17p11, a gene-rich region which is genetically unstable. In 10 of these 12 cases, we were able to further map the breakpoints to specific markers localized within a single YAC clone. Six other cases showed breakpoints located proximally to the SMS common deletion region, but still within 17p11, and yet another case had a breakpoint distal to this region. Furthermore, using chromosome 17 centromere-specific probes, it could be shown that the majority of the i(17q) chromosomes (11 of 15 investigated cases) were dicentric, ie, they contained two centromeres, strongly suggesting that i(17q) is formed through an intrachromosomal recombination event, and also implicating that the i(17q), in a formal sense, should be designated idic(17)(p11). Because i(17q) formation results in loss of 17p material, potentially uncovering the effect of a tumor suppressor on the remaining 17p, the occurrence of
TP53
mutations was studied in 17 cases by sequencing the entire coding region. In 16 cases, no
TP53
mutations were found, whereas one MDS displayed a homozygous deletion of
TP53
. Thus, our data suggest that there is no association between i(17q) and coding
TP53
mutations, and that another tumor suppressor gene(s), located in proximity of the SMS common deletion region, or in a more distal location, is of pathogenetic importance in i(17q)-associated leukemia.
...
PMID:Isochromosome 17q in blast crisis of chronic myeloid leukemia and in other hematologic malignancies is the result of clustered breakpoints in 17p11 and is not associated with coding TP53 mutations. 1038 17
Inosine 5 -monophosphate dehydrogenase (IMPDH) is a rate-limiting enzyme for the synthesis of GTP and dGTP. Two isoforms of IMPDH have been identified. IMPDH Type I is ubiquitous and predominantly present in normal cells, whereas IMPDH Type II is predominant in malignant cells. IMPDH plays an important role in the expression of cellular genes, such as
p53
, c-myc and Ki-ras. IMPDH activity is transformation and progression linked in cancer cells. IMPDH inhibitors, tiazofurin, selenazofurin, and benzamide riboside share similar mechanism of action and are metabolized to their respective NAD analogues to exert antitumor activity. Tiazofurin exhibits clinical responses in patients with acute myeloid leukemia and chronic myeloid leukemia in
blast crisis
. These responses relate to the level of the NAD analogue formed in the leukemic cells. Resistance to tiazofurin and related IMPDH inhibitors relate mainly to a decrease in NMN adenylyltransferase activity. IMPDH inhbitors induce apoptosis. IMPDH inhitors are valuable probes for examining biochemical functions of GTP as they selectively reduce guanylate concentration. Incomplete depletion of cellular GTP level seems to down-regulate G-protein function, thereby inhibit cell growth or induce apoptosis. Inosine 5'-monophosphate dehydrogenase (IMPDH, EC 1.1.1.205) catalyzes the dehydrogenation of IMP to XMP utilizing NAD as the proton acceptor. Studies have demonstrated that IMPDH is a rate-limiting step in the de novo synthesis of guanylates, including GTP and dGTP. The importance of IMPDH is central because dGTP is required for the DNA synthesis and GTP plays a major role not only for the cellular activity but also for cellular regulation. Two isoforms of IMPDH have been demonstrated. IMPDH Type I is ubiquitous and predominately present in normal cells, whereas the IMPDH Type II enzyme is predominant in malignant cells. Although guanylates could be salvaged from guanine by the enzyme hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8), the level of circulating guanine is low in dividing cells and this route is probably insufficient to satisfy the needs of guanylates in the cells.
...
PMID:Consequences of IMP dehydrogenase inhibition, and its relationship to cancer and apoptosis. 1039 Jun 1
The role of the recently identified first
p53
-homologue, p73, in neoplastic transformation is unknown. To elucidate p73 gene expression in hematopoiesis, we investigated samples from chronic myeloid leukemia (CML) and acute myeloid leukemia patients, leukemia cell lines, as well as mature and immature normal hematopoietic cells by real-time quantitative RT-PCR and Western blot analysis. We found a distinct p73 expression profile with highest p73 mRNA transcript levels in hematopoietic malignancies such as CML
blast crisis
and acute myelogenous leukemia versus CML chronic phase and normal controls. Mono- and biallelic p73 expression was found in both normal and malignant hematopoiesis. p73 protein was expressed at various levels in leukemia samples and cell lines but could not be detected in any normal controls tested. Our results point to a distinct yet undefined role of p73 in the pathogenesis of myeloid neoplasms.
...
PMID:Distinct expression patterns of the p53-homologue p73 in malignant and normal hematopoiesis assessed by a novel real-time reverse transcription-polymerase chain reaction assay and protein analysis. 1048 63
Juvenile chronic myelomonocytic leukaemia (JMML) is a rare myeloproliferative disorder of childhood. Fewer than 30% of cases of JMML terminate in a
blast crisis
; however, its molecular mechanism is unknown. Since mutation and/or deletion of the
p53
gene has been reported to be associated with disease progression in a wide variety of human cancers, including adult-type chronic myelogenous leukaemia, we studied the
p53
gene in 20 patients with JMML (16 samples in chronic phase and seven at
blast crisis
). Exons 4-8 of the
p53
gene, which cover all the hot spots of point mutations, were amplified by the polymerase chain reaction (PCR) method and subjected to mutation screening by single-strand conformation polymorphism analysis. No mobility shift of single-strand DNA of PCR products in polyacrylamide gel electrophoresis, indicating point mutations, was found in 19/20 patients. DNA of the remaining patient in the chronic phase failed to be amplified by PCR and Southern blot analysis with XbaI-digested genomic DNA revealed a gross rearrangement (presumed deletion) of the
p53
gene. These data indicate that abnormalities of the
p53
gene are rare in JMML and not responsible for acute transformation, but could be involved in the pathogenesis of some cases of JMML.
...
PMID:Abnormalities of the p53 gene in juvenile myelomonocytic leukaemia. 1052 1
Chronic myelogenous leukemia (CML) begins with an indolent chronic phase but inevitably progresses to a fatal
blast crisis
. Although the Philadelphia chromosome, which generates p210(bcr/abl), is a unique chromosomal abnormality in the chronic phase, additional chromosomal abnormalities are frequently detected in the
blast crisis
, suggesting that superimposed genetic events are responsible for disease progression. To investigate whether loss of
p53
plays a role in the evolution of CML, we crossmated p210(bcr/abl)-transgenic (BCR/ABL(tg/-)) mice with
p53
-heterozygous (
p53
(+/-)) mice and generated p210(bcr/abl)-transgenic,
p53
-heterozygous (BCR/ABL(tg/-)
p53
(+/-)) mice, in which a somatic alteration in the residual normal
p53
allele directly abrogates
p53
function. The BCR/ABL(tg/-)
p53
(+/-) mice died in a short period compared with their wild-type (BCR/ABL(-/-)
p53
(+/+)),
p53
heterozygous (BCR/ABL(-/-)
p53
(+/-)), and p210(bcr/abl) transgenic (BCR/ABL(tg/-)
p53
(+/+)) litter mates. They had rapid proliferation of blast cells, which was preceded by subclinical or clinical signs of a myeloproliferative disorder resembling human CML. The blast cells were clonal in origin and expressed p210(bcr/abl) with an increased kinase activity. Interestingly, the residual normal
p53
allele was frequently and preferentially lost in the tumor tissues, implying that a certain mechanism facilitating the loss of
p53
allele exists in p210(bcr/abl)-expressing hematopoietic cells. Our study presents in vivo evidence that acquired loss of
p53
contributes to the blastic transformation of p210(bcr/abl)-expressing hematopoietic cells and provides insights into the molecular mechanism for
blast crisis
of human CML. (Blood. 2000;95:1144-1150)
...
PMID:Acquired loss of p53 induces blastic transformation in p210(bcr/abl)-expressing hematopoietic cells: a transgenic study for blast crisis of human CML. 1066 83
Chronic myeloid leukemia (CML) is a disease of the hematopoietic system, characterized by the presence of the Bcr-Abl oncoprotein. The main characteristics of this disease include adhesion independence, growth factor independence, and resistance to apoptosis. Loss or mutation of the tumor suppressor gene,
p53
, is one of the most frequent secondary mutations in CML
blast crisis
. The transition between chronic phase and
blast crisis
is associated with increased resistance to apoptosis correlating with poor prognosis. This review focuses on the involvement of these two oncoproteins in the development and progression of the apoptotic-resistant phenotype in CML.
...
PMID:Molecular abnormalities in chronic myeloid leukemia: deregulation of cell growth and apoptosis. 1104 Feb 77
p210bcr/abl is detected in almost all chronic myelogenous leukemia (CML) patients and a significant number of acute lymphoblastic leukemia (ALL) cases. It is generated by a reciprocal chromosomal translocation, t(9;22) (q34;q11), and the enhanced kinase activity of the protein is believed to be implicated in the pathogenesis of the diseases. To examine its oncogenicity in vivo and to create an animal model for BCR/ABL-positive leukemias, we generated transgenic mice expressing p210bcr/abl driven by the promoter of the mouse tec gene, a cytoplasmic tyrosine kinase preferentially expressed in early hematopoietic progenitors. While the founder mice showed excessive proliferation of lymphoblasts shortly after birth and were diagnosed as ALL, the transgenic progeny reproducibly exhibited marked granulocyte hyperplasia with thrombocytosis after a long latent period, which closely resembles the clinical course of human CML. In addition, to investigate whether loss of
p53
would play a role in the transition from chronic phase to
blast crisis
of CML, we crossmated p210bcr/abl transgenic (BCR/ABLtg/-) mice with
p53
heterozygous (p53+/-) mice and generated p210bcr/abl transgenic,
p53
heterozygous (BCR/ABLtg/- p53+/-) mice, in which a somatic alteration in the residual
p53
allele directly abrogates
p53
function. The BCR/ABLtg/- p53+/- mice exhibited rapid proliferation of blast cells and died in a short period compared with their wild-type (BCR/ABL-/- p53+/+),
p53
heterozygous (BCR/ABL-/- p53+/-), and p210bcr/abl transgenic (BCR/ABLtg/- p53+/+) littermates. Interestingly, the normal
p53
allele was frequently and preferentially lost in the tumor tissues, providing in vivo evidence that acquired loss of
p53
contributes to the blastic transformation of p210bcr/abl-expressing hematopoietic cells. Our transgenic mice will be a useful model for investigating oncogenic properties of p210bcr/abl in vivo and will provide insights into the molecular mechanism(s) underlying the progression from chronic phase to
blast crisis
of CML.
...
PMID:Model mice for BCR/ABL-positive leukemias. 1135 87
The purpose of this study was to determine the value of
p53 protein
overexpression in human leukemia and lymphoma cells. We examined PB and/or BM samples on a series of 111 patients with immunophenotypically defined hematological malignancies at diagnosis, in remission and in relapsed disease comparing to 20 control samples of healthy individuals.
p53 protein
has been studied by flow cytometry using three monoclonal antibodies specific for epitopes on N-terminus (Bp53-12, DO-1) and central region (DO-11) of
p53 protein
. Our findigs showed, that
p53
expression may contribute to phenotype of leukemic cells and that overexpression of this protein is often associated with progression of disease. All samples of early B-ALL patients and samples of patients with immunophenotypically defined T- cell disorders examined at diagnosis of disease were
p53
positive. Eleven of 19 patient samples from AML at diagnosis showed also increased expression of
p53 protein
. The cells of all patients who responded to therapy with complete immunophenotypically defined remission were
p53
negative. Relapsed T-, B- ALL and AML develop
p53
alteration. We reported positive
p53
expression in cells of patients with advanced stages of CLL in comparison to them with initial stage of disease at examination. As well as in the group of B- cell lymphomas only samples of patients with generalized FCC lymphoma at diagnosis were
p53
positive. We detected
p53
positive cells in immunologically defined myeloid
blast crisis
of CML opposite to
p53
negativity in chronic phase of disease. The finding of
p53
positive BM cells without immunophenotypic blast markers in two of followed cases documented the contributing value of
p53
detection in their characterization. On the basis of above findings we conclude, that cytofluorometric determination of
p53
expression may contribute to the better definition of leukemic phenotype. Loss of the normal
p53
function may be important in the genesis of some leukemias. Elucidation of the mechanisms of
p53
inactivation needs some more study.
...
PMID:P53 protein expression in human leukemia and lymphoma cells. 1171 81
A characteristic feature of chronic myeloid leukaemia (CML) is the inevitable advancement from a treatable chronic phase to a fatal, drug-resistant stage referred to as
blast crisis
. The molecular mechanisms responsible for this disease transition remain unknown. As increased expression of Bcr-Abl has been associated with
blast crisis
CML, we have established transfectants in 32D cells that express low and high levels of Bcr-Abl, and assessed their drug sensitivity. Cells with high Bcr-Abl expression levels are resistant to conventional cytotoxic drugs, and also require higher levels of STI571 (an inhibitor of Bcr-Abl), to induce cell death. Co-treatment with cytotoxic drugs and STI571 increased the sensitivity of the drug-resistant cells. Despite the drug-resistant phenotype, high Bcr-Abl levels concomitantly increased the expression of
p53
, p21, Bax and down-regulated Bcl-2. These cells maintain a survival advantage irrespective of a reduced proportion of cycling cells and the pro-apoptotic shift in gene expression. In addition, the level of Bcr-Abl expression (high or low) does not alter the growth factor independence and elevated Bcl-xL expression observed. Our study indicates that drug resistance can be primarily attained by increased Bcr-Abl expression, and highlights the potential of therapy which combines STI571 with conventional cytotoxic drugs.
...
PMID:Elevated Bcr-Abl expression levels are sufficient for a haematopoietic cell line to acquire a drug-resistant phenotype. 1175 1
Chronic myeloid leukemia (CML) is genetically characterized by the presence of the reciprocal translocation t(9;22)(q34;q11), resulting in a BCR/ABL gene fusion on the derivative chromosome 22 called the Philadelphia (Ph) chromosome. In 2-10% of the cases, this chimeric gene is generated by variant rearrangements, involving 9q34, 22q11, and one or several other genomic regions. All chromosomes have been described as participating in these variants, but there is a marked breakpoint clustering to chromosome bands 1p36, 3p21, 5q13, 6p21, 9q22, 11q13, 12p13, 17p13, 17q21, 17q25, 19q13, 21q22, 22q12, and 22q13. Despite their genetically complex nature, available data indicate that variant rearrangements do not confer any specific phenotypic or prognostic impact as compared to CML with a standard Ph chromosome. In most instances, the t(9;22), or a variant thereof, is the sole chromosomal anomaly during the chronic phase (CP) of the disease, whereas additional genetic changes are demonstrable in 60-80% of cases in
blast crisis
(BC). The secondary chromosomal aberrations are clearly nonrandom, with the most common chromosomal abnormalities being +8 (34% of cases with additional changes), +Ph (30%), i(17q) (20%), +19 (13%), -Y (8% of males), +21 (7%), +17 (5%), and monosomy 7 (5%). We suggest that all these aberrations, occurring in >5% of CML with secondary changes, should be denoted major route abnormalities. Chromosome segments often involved in structural rearrangements include 1q, 3q21, 3q26, 7p, 9p, 11q23, 12p13, 13q11-14, 17p11, 17q10, 21q22, and 22q10. No clear-cut differences as regards type and prevalence of additional aberrations seem to exist between CML with standard t(9;22) and CML with variants, except for slightly lower frequencies of the most common changes in the latter group. The temporal order of the secondary changes varies, but the preferred pathway appears to start with i(17q), followed by +8 and +Ph, and then +19. Molecular genetic abnormalities preceding, or occurring during, BC include overexpression of the BCR/ABL transcript, upregulation of the EVI1 gene, increased telomerase activity, and mutations of the tumor suppressor genes RB1,
TP53
, and CDKN2A. The cytogenetic evolution patterns vary significantly in relation to treatment given during CP. For example, +8 is more common after busulfan than hydroxyurea therapy, and the secondary changes seen after interferon-alpha treatment or bone marrow transplantation are often unusual, seemingly random, and occasionally transient. Apart from the strong phenotypic impact of addition of acute myeloid leukemia/myelodysplasia-associated translocations and inversions, such as inv(3)(q21q26), t(3;21)(q26;q22), and t(15;17)(q22;q12-21), in CML BC, only a few significant differences between myeloid and lymphoid BC are discerned, with i(17q) and
TP53
mutations being more common in myeloid BC and monosomy 7, hypodiploidy, and CDKN2A deletions being more frequent in lymphoid BC. The prognostic significance of the secondary genetic changes is not uniform, although abnormalities involving chromosome 17, e.g., i(17q), have repeatedly been shown to be ominous. However, the clinical impact of additional cytogenetic and molecular genetic aberrations is most likely modified by the treatment modalities used.
...
PMID:Cytogenetic and molecular genetic evolution of chronic myeloid leukemia. 1191 88
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