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Enzyme
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Query: UMLS:C0023473 (
chronic myeloid leukemia
)
18,916
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have isolated and characterized a 2.4-kb cDNA clone encoding human neutrophil collagenase (HNC), a member of the family of matrix metalloproteinases restricted to secondary granules within neutrophils. Partial amino acid sequence was used to deduce oligonucleotide probes. These probes were used to screen a human granulocyte cDNA library derived from messenger RNA (mRNA) from a patient with
chronic granulocytic leukemia
. Cell-free translation of RNA produced from the cDNA produced a 52-Kd protein that was recognized by anti-HNC antibody. The cDNA clone was sequenced and shown to encode a 467-residue protein whose sequence matched those regions currently known for HNC. The enzyme exhibits 58% homology to human fibroblast
collagenase
and has the same domain structure. It consists of a 20-residue signal peptide, and an 80-residue propeptide that is lost on autolytic activation by cleavage of an M-L bond. Other regions identified include the autolytic degradation site, the "cysteine switch" residue that is involved in latency and activation, and a putative zinc binding sequence. HNC has six potential N-linked glycosylation sites. The cDNA hybridized to a 3.4-kb mRNA in RNA from a patient with
chronic granulocytic leukemia
, but not to RNA from uninduced HL60 cells or HL60 cells that had been induced to undergo granulocytic or monocytic maturation with dimethyl sulfoxide or 12-O-tetradecanoylphorbol 13-acetate, respectively. These results parallel those seen with lactoferrin and transcobalamin I, two other secondary granule proteins.
...
PMID:Structure and expression of the cDNA encoding human neutrophil collagenase. 164 48
Molecular cloning has revealed that erythroid potentiating activity (EPA) and tissue inhibitor of metalloproteinases (TIMP) represent two distinct activities of a single protein. We have studied the expression of the EPA/TIMP gene at the mRNA and protein levels during 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-induced megakaryoblastic differentiation of K562 human
chronic myeloid leukemia
cells. Northern hybridization analysis showed that the EPA/TIMP mRNA was increased within 3 hours of TPA-induction and reached maximal levels (about 50-fold induction) during the first day of treatment. The expression of mRNAs for two major metalloproteinases,
collagenase
-I and stromelysin, were activated in parallel in the differentiation-induced K562 cells. The increase of EPA/TIMP mRNA correlated with increased EPA/TIMP protein biosynthesis and secretion: the TPA-induced cells secreted substantially enhanced amounts of metabolically labeled proteins, of which EPA/TIMP represented up to 50% after the first day of treatment (over 100-fold induction). The induction of EPA/TIMP mRNA was associated with its increased transcription. EPA/TIMP induction required continuous protein synthesis, being completely inhibited by addition of the protein synthesis inhibitor cycloheximide simultaneously with TPA, but only partially inhibited in a time-dependent manner if cycloheximide was added after TPA. Unlike in other cells tested, the jun and c-fos transcription factor mRNAs showed a prolonged biphasic induction response in K562 cells during TPA treatment. This response was associated with enhanced activity of a transfected recombinant reporter plasmid containing binding sites for the jun/fos transcription factor complex (AP-1) similar to the TPA-responsive element (TRE) sequence we found in the EPA/TIMP gene promoter. We suggest that the induction of EPA/TIMP and several other genes specific for the differentiating K562 cells may be a consequence of the sustained activation of immediate early genes encoding transcription factors, such as jun and c-fos.
...
PMID:Increased erythroid potentiating activity/tissue inhibitor of metalloproteinases and jun/fos transcription factor complex characterize tumor promoter-induced megakaryoblastic differentiation of K562 leukemia cells. 215 16
We have identified and sequenced a cDNA encoding human neutrophil collagenase from a lambda gt11 cDNA library constructed from mRNA extracted from the peripheral leukocytes of a patient with
chronic granulocytic leukemia
. The library was screened with an oligonucleotide probe constructed from the putative zinc-binding region of fibroblast
collagenase
. Eleven positive clones were identified, of which the one bearing the largest insert (2.2 kilobases (kb)) was sequenced. From the nucleotide sequence of the 2.2-kb cDNA clone we have deduced a 467-amino acid sequence representing the entire coding sequence of the enzyme. The deduced protein was confirmed as neutrophil collagenase by conformity with the amino-terminal sequence analyses of three tryptic peptides of purified neutrophil collagenase. The cDNA clone hybridizes to a 3.3-kb mRNA present in RNA extracted from human bone marrow but did not hybridize with RNA isolated from U937 cells induced to differentiate with phorbol myristate acetate. Neutrophil collagenase was found to possess 57% identity with the deduced protein sequence for fibroblast
collagenase
with 72% chemical similarity. Certain regions of the molecule, including the putative zinc-binding region, are highly conserved. When compared with the published sequence for fibroblast
collagenase
, neutrophil collagenase contains four additional sites for glycosylation. Medium from COS-7 cells transfected with a pcDNA1 eucaryotic expression vector containing cDNA for neutrophil collagenase degraded type I collagen into the three-quarter, one-quarter fragments characteristic of mammalian interstitial collagenase activity. Thus, definitive evidence based on the cDNA sequence confirms the neutrophil collagenase is a distinct gene product and a member of the family of matrix metalloproteinases.
...
PMID:Human neutrophil collagenase. A distinct gene product with homology to other matrix metalloproteinases. 216 2
Chronic myelogenous leukaemia
(
CML
) is frequently accompanied by progressive myelofibrosis that is probably largely due to increased collagen production by bone marrow fibroblasts or decreased collagen degradation by
collagenase
. We investigated the activity of
collagenase
and
collagenase
-inhibitory factors (CIF) in serum and bone marrow fibroblast-conditioned medium obtained from patients with
CML
and healthy volunteers. The activity of both
collagenase
and CIF was significantly higher in the
CML
patients than in the normal volunteers. Our previous study showed that bone marrow fibroblasts from
CML
patients produce significantly more collagen than fibroblasts from normal subjects. Therefore, it appears that the in vitro production of
collagenase
and CIF by bone marrow fibroblasts is related to the degree of in vivo collagen production. and that both the increased
collagenase
and CIF activities are reflections of collagen overproduction in
CML
.
...
PMID:Collagenase activity and collagenase-inhibitory factors of serum and bone marrow fibroblast-conditioned medium in chronic myelogenous leukaemia. 751 66
Human neutrophils can be triggered to release the collagenolytic metalloenzymes, interstitial collagenase and 92 kDa type IV collagenase/gelatinase. We have isolated and sequenced a 2.3 kb cDNA from a
chronic granulocytic leukemia
cDNA library that encodes for human neutrophil type IV collagenase. With the exception of one amino-acid substitution at position 280 (Arg-->Gln), the deduced amino-acid sequences of neutrophil gelatinase are identical to the amino-acid sequences of the enzyme isolated from fibrosarcoma cells. Expression of the cDNA in E. coli yielded a 72 kDa protein having a gelatinolytic activity on zymogram gel. The recombinant enzyme was activated with APMA and trypsin. The activation was accompanied by a reduction in molecular weight of approximately 10 kDa; such a reduction is characteristic of matrix metalloproteinases. The recombinant gelatinase cleaved native type V and XI collagens. Native type I collagen was not a substrate for the enzyme. These data suggest that native and recombinant 92 kDa type IV collagenase produced in E. coli have similar biochemical properties. The successful expression of the
collagenase
in a prokaryotic system will greatly facilitate the structure-function characterization of the enzyme and allow a more precise analysis of its physiological and pathological roles.
...
PMID:Characteristics of 92 kDa type IV collagenase/gelatinase produced by granulocytic leukemia cells: structure, expression of cDNA in E. coli and enzymic properties. 830 81
Action of N(epsilon)-(carboxymethyl)lysine-human serum albumin (
CML
-HSA) on neovascularization was investigated in cultured rat choroidal explant. Choroidal explants of normal male Wistar rats were cultured in fibrin gel with Dulbecco's modified Eagle medium containing fetal bovine serum in the presence or absence of
CML
-HSA. Migrated cells were budded from 2nd day in culture and developed from cultured choroidal explants in a time-dependent manner. Budded and developed cells from the choroidal explant had a feature of fibroblasts, which had attenuated long cytoplasmic processes, long ellipsoid nuclei and numerous membrane-bound polymorphic vesicles. Immunostaining of the attenuated cells in fibrin bed with CD34 (a marker protein of vascular endothelial cells and endothelial progenitor cells) failed to disclose positive result. However the cells which were isolated from fibrin bed by
collagenase
were specifically stained with anti-CD34 antibody. The isolated cells did not form tube-like structures on collagen gel by 3 weeks in culture.
CML
-HSA significantly increased the number of total isolated cells and CD34(+) cells as well as the number of vessel-like structures. These results indicate that
CML
-HSA overproduced immature blood vessels from cultured choroidal explants in fibrin gel, which consisted of CD34(+) cells. The
CML
-HSA-induced formation of immature blood vessel may be implicated in various choroidal diseases such as age-related macular degeneration.
...
PMID:N(epsilon)-(carboxymethyl)lysine proliferated CD34(+) cells from rat choroidal explant in culture. 1534 Feb 23
