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
Query: EC:3.2.1.17 (
lysozyme
)
21,489
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The authors report on 16 cases of either subacute (SMML) or chronic (CMML) myelomonocytic leukemia as well as chronic monocytic leukemia (CMoL). All these cases were oligoblastic and, according to their clinical course, they could be termed as smouldering leukemias. The chronic types affected mainly males. The diagnostic cytomorphological and cytochemical criteria are discussed.
Erythro
- and thrombocytopoiesis were distinctly less impaired than in acute leukemias (AL). The leucocyte count in the peripheral blood of the SMML cases was within the normal range. Hepato- and splenomegaly were markedly increased as compared to AL. According to our materials leukemic skin infiltrations were less frequent in CMoL, CMML and SMML than in acute monocytic leukemias. In each of the three types of leukemia discussed monocytic leukemic cells could be readily identified by cytochemical tests and usually showed fairly normal maturation. In accordance with these observations
lysozyme
levels in urine and serum usually were strongly increased. The patients in the CMML and CMoL groups showed a mean survival of more than 13 months (2 out of 7 are still alive), whereas the SMML patients survived an average of 8 months. Deaths were frequently due to advanced age rather than to leukemia. In other cases a terminal accumulation of blasts marked a transition to acute leukemia. During the smouldering phase of the disease no beneficial effect of combined chemotherapy could be noted. Supportive and symptomatic therapy might improve length and quality of survival.
...
PMID:[Subacute and chronic monocytic leukemia: diagnostic and clinical problems]. 29 89
Lysozyme is an important component of innate immunity against common pathogens at mucosal surfaces. We previously cloned and characterized the bovine
lysozyme
5A (lys5A) promoter with the purpose of determining cis- and trans-acting elements controlling airway epithelial cell-specific expression. We found that such expression is controlled by protein binding to an
ETS
consensus sequence located approximately at -46 to -40 bp from the transcription start site. The identity of the
ETS
-related protein responsible for gene transactivation was unknown. In this study, we screened six
ETS
-related proteins by transient transfection into epithelial cells and fibroblasts. Results showed that among these factors, the myeloid Elf-1-like factor (MEF) was the most potent. Gel shift analysis of epithelial cell nuclear extracts using a lys5A probe including the
ETS
-binding site (-50/-31) yielded a single band with retarded mobility. This band was supershifted by an antibody directed against MEF. Supporting the possibility that MEF is responsible for functional transactivation of
lysozyme
in epithelial cells, we found that antisense MEF mRNA decreased lys5A promoter activity and that MEF overexpression in stably transfected cells increased
lysozyme
mRNA and protein expression. We conclude that MEF is required for epithelial cell transactivation of
lysozyme
.
...
PMID:Myeloid ELF-1-like factor up-regulates lysozyme transcription in epithelial cells. 1040 Jun 20
Lysozyme is an important component of innate immunity against common pathogens at mucosal surfaces. We previously cloned and characterized the bovine
lysozyme
5A (lys5A) promoter with the purpose of determining cis- and trans-acting elements controlling airway epithelial cell-specific expression. We found that such expression is controlled by protein binding to an
ETS
consensus sequence located approximately at -46 to -40 bp from the transcription start site. The identity of the
ETS
-related protein responsible for gene transactivation was unknown. In this study, we screened six
ETS
-related proteins by transient transfection into epithelial cells and fibroblasts. Results showed that among these factors, the myeloid Elf-I-like factor (MEF) was the most potent. Gel shift analysis of epithelial cell nuclear extracts using a lys5A probe including the
ETS
-binding site (-50/-31) yielded a single band with retarded mobility. This band was super-shifted by an antibody directed against MEF. Supporting the possibility that MEF is responsible for functional transactivation of
lysozyme
in epithelial cells, we found that antisense MEF mRNA decreased lys5A promoter activity and that MEF overexpression in stably transfected cells increased
lysozyme
mRNA and protein expression. We conclude that MEF is required for epithelial cell transactivation of
lysozyme
.
...
PMID:[Novel transcription factor MEF is associated with the function of lung epithelial cells]. 1062 60
We previously indicated that myeloid elf-1-like factor (MEF) but not elf-1, specifically activated
lysozyme
gene expression in epithelial cells. MEF is highly homologous at the nucleotide and amino acid level, with elf-1 especially in the
ETS
domain. Here, we report the functional analysis of the nuclear localization and transactivation properties of MEF. To investigate the intracellular localization of MEF, we transiently transfected MEF-green fluorescence protein (GFP) fusion protein expression vector into HeLa cells. A region spanning residues 177-291 is required for nuclear localization. We produced deletion mutants of MEF to determine the transactivation domain. The data showed that the N-terminal region, encompassing amino acids 1-52 is a potent transactivation domain. The C-terminal region spanning residues 477-663 can also mediate transactivation but not as strongly as the N-terminal region. The activity of the amino acid residues 1-52 was confirmed by experiments with fused constructs of MEF to the DNA binding-domain of the yeast GAL4 protein. These results, which determined the localization of the functional domains of MEF, will provide us with new clues to its transactivation mechanisms to regulate
lysozyme
gene expression in epithelial cells.
...
PMID:Functional dissection of the ETS transcription factor MEF. 1215 Nov 2
Malignant histiocytosis (MH) was diagnosed in a 13-year-old neutered male Domestic Shorthair cat on the basis of light microscopic and immunohistochemical findings. Thoracic fluid analysis showed a modified transudate which contained a very few atypical discrete cells. Cytologic and histologic evaluation of mediastinal and splenic masses revealed a pleomorphic population of large, discrete, round cells 10 to 30 micrometers in diameter with marked cellular atypia. Nuclei were oval to reniform, often with prominent, bizarre nucleoli. Multinucleated cells and mitotic figures were commonly seen.
Erythro
- and leucocytophagia were noted. Immunohistochemistry indicated a scattered positive staining pattern with the histiocytic antigenic marker Mac387 and a minor population of cells showing positive reactivity for
lysozyme
. This report describes the characterization of MH in a cat and emphasizes that MH should be considered as a differential diagnosis in proliferative disorders of discrete-cells in this species.
...
PMID:Malignant histiocytosis in a domestic cat: cytomorphologic and immunohistochemical features. 1265 95
Myeloid elf-1-like factor (MEF) or Elf4, which is a member of the
ETS
transcription factor family, up-regulates the basal expression of
lysozyme
gene in epithelial cells and is constitutively localized in the nucleus. The mammalian cell nucleus is organized into distinct nuclear domains or compartments that are essential for diverse physiological processes. Promyelocytic leukemia (PML) nuclear body or nuclear domain 10 is one of the nuclear domains and is involved in tumor suppression and regulation of transcription. Here, we investigate the role of PML nuclear body in MEF transactivation. We show that PML, but not Sp100, induced the accumulation of MEF in PML nuclear bodies and that MEF and PML physically interacted. This interaction stimulated MEF transcriptional activity, resulting in the up-regulation of endogenous
lysozyme
expression. Amino acids 348-517 of MEF were required for the accumulation of MEF in PML nuclear bodies and up-regulation of
lysozyme
transcription, which is enhanced by PML. Moreover, the C-terminal region of MEF spanning amino acids 477-517 was the putative region required for interaction between MEF and PML as determined with the use of the mammalian two-hybrid system. In addition, heat-shock treatment induced the accumulation of MEF in endogenous PML nuclear bodies and enhanced MEF transactivation of
lysozyme
gene. Thus, the recruitment of MEF to PML nuclear bodies may partly regulate
lysozyme
transcription in epithelial cells.
...
PMID:Myeloid Elf-1-like factor, an ETS transcription factor, up-regulates lysozyme transcription in epithelial cells through interaction with promyelocytic leukemia protein. 1497 84
Human beta-defensin 2 (HBD2), an antimicrobial peptide, is widely expressed in epithelial tissues and displays a potent killing activity in response to the invasiveness of a wide range of microorganisms and the stimulation of various molecules. Myeloid ELF-1-like factor (MEF) has been reported to be involved in innate immunity responses, such as activation of perforin and
lysozyme
transcription. The role of MEF in the transcription regulation of HBD2, however, is unknown. Here, we show that MEF not only activated HBD2 promoter activity, but also increased the endogenous HBD2 transcription level. Moreover, the activated HBD2 promoter activity was attenuated by the antisense MEF RNA input and the loss of the
ETS
binding site (EBS: GGAA core sequence) in the HBD2 promoter. The interaction between the EBS and MEF protein was further confirmed by electrophoretic mobility shift assay. Thus, our data indicate that MEF may play an important role in regulating HBD2 expression in epithelial cells.
...
PMID:MEF up-regulates human beta-defensin 2 expression in epithelial cells. 1501 61
Lysozyme protects us from the ever-present danger of bacterial infection. The expression of
lysozyme
is, in part, regulated by the Ets factor, myeloid elf-1-like factor (MEF). MEF binds to the
ETS
site of the
lysozyme
promoter at -46 to -40bp. Closer analysis of the promoter using a series of deletion mutants and point mutants indicated that the region around -75bp is also essential in regulating the activity of
lysozyme
. The sequences in this region correspond to the Sp1 consensus binding site. Sp1 is known to regulate a variety of house-keeping and tissue-specific genes by itself or with other transcription factors like AP-1 or
ETS
. We indicate here that Sp1 regulates the
lysozyme
gene by binding to the GT-core sequences of
lysozyme
promoter. Treatment with mithramycin A down-regulated the promoter activity and the transfection of anti-sense Sp1 induced a decrease in the endogenous expression of
lysozyme
.
...
PMID:Sp1 is involved in the transcriptional activation of lysozyme in epithelial cells. 1550 56
Myeloid Elf-1 like factor (MEF) is an
ETS
protein, which activates the promoters of granulocyte macrophage colony-stimulating factor, interleukin-3,
lysozyme
, human beta defensin-2 and perforin. In spite of its many known functions, little is known about MEF transcriptional regulation. Here, we cloned the 5'-flanking region of human MEF gene and identified a TATA-less promoter region at -204/-54 which contains 4 putative binding sites for Sp1, two of which are essential in up-regulating MEF activity. These were proven by EMSA and blocking Sp1 using RNAi or mithramycin A treatment of HEK293 cells. Our results suggest that Sp1 constitutively regulates the MEF gene.
...
PMID:Sp1-dependent regulation of Myeloid Elf-1 like factor in human epithelial cells. 1590 86
Myeloid elf-1-like factor (MEF) or Elf4 is an
ETS
protein known to regulate the basal expression of the anti-microbial peptides,
lysozyme
and human beta-defensin-2, in epithelial cells and activate the transcription of perforin in natural killer cells. The numerous target genes of MEF and its biological functions signify the importance of this Ets transcription factor. Here we show that MEF is modified by conjugation with SUMO-1/-2 (small ubiquitin-related modifier) both in mammalian cells and in Escherichia coli overexpressing human SUMO-1/-2. We identified by point mutation that lysine 657 of MEF is the site for sumoylation. This modification down-regulated MEF activity on
lysozyme
and perforin promoters, and decreased the
lysozyme
mRNA expression. Chromatin immuno-precipitation analysis revealed that SUMO-conjugation diminished the recruitment of MEF to the
lysozyme
promoter, which partly explains the down-regulation of MEF activity by SUMO. These findings contribute to our understanding of the regulation of the
ETS
factor MEF.
...
PMID:SUMO down-regulates the activity of Elf4/myeloid Elf-1-like factor. 1690 44
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