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: EC:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The most common chromosomal abnormality of infant acute lymphoblastic leukemia (ALL) is the t(4;11)(q21;q23) that gives rise to the MLL/AF4 fusion gene. Leukemic blasts expressing MLL/AF4 are arrested at an early progenitor stage with lymphoid or monocytoid characteristics. A novel B-lineage ALL cell line termed B-lineage-3 (BLIN-3) requiring human bone marrow (BM) stromal cell contact and interleukin-7 (IL-7) for optimal proliferation has been established. BLIN-3 cells have a CD19(+)/CD10(-) phenotype typical of infant ALL, and they harbor the t(4;11)(q21;q23) chromosomal translocation. Reverse transcription-polymerase chain reaction and Western blot analysis confirmed the presence of the MLL/AF4 fusion mRNA and protein in BLIN-3. Initial BLIN-3 cultures had a pro-B cell phenotype and did not express cytoplasmic or surface mu heavy chain. After approximately 5 months in culture on BM stromal cells plus IL-7, BLIN-3 sublines emerged expressing mu heavy chain and VpreB on the cell surfaces (ie, pre-B-cell receptor [BCR](+)). BLIN-3 cells expressing pre-BCR had the t(4;11)(q21;q23) translocation and expressed the MLL/AF4 fusion protein. Cross-linking the BLIN-3 pre-BCR led to enhanced cell proliferation, demonstrating that BLIN-3 expressed a functional pre-BCR. Increased acquisition of surface pre-BCR in BLIN-3 sublines was associated with loss of DJ rearrangements and the appearance of VDJ rearrangements. These results indicate that expression of the MLL/AF4 fusion protein is compatible with BM stromal cell and cytokine dependency, functional immunoglobulin gene segment rearrangement, and subsequent expression of a potentially diverse antigen receptor repertoire. Thus, the expression of MLL/AF4 is compatible with the normal developmental program of human B-lineage cells.
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PMID:Pro-B-cell to pre-B-cell development in B-lineage acute lymphoblastic leukemia expressing the MLL/AF4 fusion protein. 1171 80

Two novel B-cell precursor (BCP) acute lymphoblastic leukemia (ALL) sister cell lines, designated NALM-36 and NALM-37, were established from the peripheral blood (at diagnosis) and bone marrow (at relapse) of a 37-year-old woman with ALL. Immunophenotyping showed BCP type III pre-B cell characteristics including TdT, CD10, CD19, CD22, CD79a and HLA class II. T cell and myeloid-associated antigens tested were negative except CD5 which was 100% positive for both cell lines. The surrogate light chains lambda5 and VpreB were positive for both cell lines. Cytogenetic analysis of NALM-36 revealed an abnormal karyotype with 46, XX, add(1)(q?42), -14, +mar. Southern blot analysis of the immunoglobulin (Ig) genes status of NALM-36 at 10 months after establishment showed germ line configuration of the kappa light chain gene, and rearrangement of the lambda light and mu heavy chain genes. At 16 months we detected a phenotypic shift of Ig chain protein expression from a BCP-III pre-B cell phenotype to a BCP-IV mature B cell phenotype, with kappa and lambda double Ig light chain and mu heavy chain expression, both on the cell surface and in the cytoplasm. We designated this subline as NALM-36KL. Authenticity of the NALM-36KL, NALM-36 and NALM-37 cell lines was demonstrated by DNA fingerprinting. The extensive characterization of the sister cell lines suggests that these three novel cell lines, derived from a single patient, may represent unique and relevant in vitro model systems for BCP-type leukemia cells. They may provide useful models and unprecedented opportunities for analyzing the multitude of biological aspects of normal and neoplastic B-lymphocytes and their precursors.
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PMID:Establishment of novel B-cell precursor leukemia sister cell lines NALM-36 and NALM-37: shift of immunoglobulin phenotype to double light chain positive B-cell. 1173 98

Botulinum neurotoxins are produced by anaerobic Clostridium botulinum in an inactive form. The endopeptidase activity of type A botulinum neurotoxin (BoNT/A) is triggered by reduction of its disulfide bond between its heavy chain and light chain. By using circular dichroism spectroscopy, we show that, upon reduction of BoNT/A and under physiological temperature (37 degrees C), the BoNT/A loses most of its native tertiary structure, while retaining most of its secondary structure. This type of structure is characterized as a molten globule type conformation, which was further confirmed for BoNT/A by the characteristic binding of 1-anilinonaphthalene-8-sulfonic acid. Under nonreducing conditions where the interchain disulfide bond is intact, the enzymatically inactive BoNT/A did not show a molten globule type of structure. A temperature profile of the structure and enzyme activity of BoNT/A revealed that, under reducing conditions, there was a strong correlation in the existence of the molten globule structure and optimum endopeptidase activity at about 37 degrees C.
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PMID:Role of the disulfide cleavage induced molten globule state of type a botulinum neurotoxin in its endopeptidase activity. 1173 15

Kaposi sarcoma-associated herpesvirus (KSHV) is known to be associated with 3 distinct lymphoproliferative disorders: primary effusion lymphoma (PEL), multicentric Castleman disease (MCD), and MCD-associated plasmablastic lymphoma. We report 3 cases of a previously undescribed KSHV-associated lymphoproliferative disorder. The disease presented as localized lymphadenopathy and showed a favorable response to chemotherapy or radiotherapy. Histologically, the lymphoproliferation is characterized by plasmablasts that preferentially involved germinal centers of the lymphoid follicles, forming confluent aggregates. They were negative for CD20, CD27, CD79a, CD138, BCL6, and CD10 but showed monotypic kappa or lambda light chain. Clusters of CD10(+)CD20(+) residual follicle center cells were identified in some of the follicles. The plasmablasts were positive for both KSHV and EBV, and most of them also expressed viral interleukin-6 (vIL-6). Unexpectedly, molecular analysis of whole tissue sections or microdissected KSHV-positive aggregates demonstrated a polyclonal or oligoclonal pattern of immunoglobulin (Ig) gene rearrangement. The plasmablasts showed somatic mutation and intraclonal variation in the rearranged Ig genes, and one case expressed switched Ig heavy chain (IgA), suggesting that they originated from germinal center B cells. We propose calling this distinctive entity "KSHV-associated germinotropic lymphoproliferative disorder."
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PMID:KSHV- and EBV-associated germinotropic lymphoproliferative disorder. 1238 45

We prepared six anti-idiotypic monoclonal antibodies (mAbs) against parent 41S-2 mAb whose light chain is a super catalytic antibody (41S-2-L) capable of degrading targeted HIV-1gp41 molecule. Out of the obtained six mAbs, i41-7 mAb showed the strongest affinity to the parent 41S-2 mAb. The three dimensional structure of i41-7 mAb was created by molecular modeling using the deduced amino acid sequence of the light and heavy chain of i41-7 mAb. It suggests that the light and heavy chain possess catalytic triad-like structure composed of Ser, His and Asp in their conformations. Both chains of i41-7 mAb could cleave peptide bond of some peptides such as a polypeptide, TP41-1 (TPRGPDRPEGIEEEGGERDRD), as anticipated. The cleaving reaction advanced in accordance with Michaelis-Menten equation. The catalytic efficiency (kcat/Km) of light and heavy chain was 9.1 x 10(3) and 1.7 x 10(4) M(-1) x min(-1), respectively, while the intact i41-7 mAb did not exhibit any catalytic activity. The first cleaved bond of the TP41-1 peptide by the light chain was between 14E and 15G in the sequence. It was revealed that both light and heavy chains had endopeptidase characteristics.
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PMID:Endopeptidase character of monoclonal antibody i41-7 subunits. 1270 27

A novel B-cell precursor (BCP) acute lymphoblastic leukemia (ALL) cell line, NALM-35, was established from the peripheral blood of a 40-year-old woman at diagnosis of ALL. Imunophenotyping showed BCP type III characteristics including expression of TdT, CD10, CD19, CD22, CD79a and HLA class II. T-cell and myeloid-associated antigens tested were negative except CD5 and CD28. The surrogate light chains CD179a and CD179b were positive. NALM-35 cells have the morphological appearance of lymphoblasts. Cytogenetic analysis of NALM-35 revealed an abnormal karyotype with 46, XX, add(9)(p11). Southern blot analysis of the immunoglobulin genes status of NALM-35 at 10 months after establishment showed germ line configuration of the kappa and lambda light chain genes, and rearrangement of the mu heavy chain gene. DNA fingerprinting, chromosomal analysis and immunophenotyping proved that NALM-35 was clonally derived from the primary leukemia cells. The established cell line may provide a useful model system and unprecedented opportunities for analyzing the multitude of biological aspects of normal and neoplastic B-lymphocytes and their precursors.
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PMID:Establishment and characterization of new B-cell precursor leukemia cell line NALM-35. 1288 57

Several bacteria of the Clostridium genus (C. botulinum) produce 150 kDa di-chainal protein toxins referred as botulinum neurotoxins or BoNTs. They associate with non-toxic companion proteins and form a complex termed botulinum toxin or BoTx. The latter is used in clinic for therapeutic purpose. BoNTs affect cholinergic nerve terminals in periphery where they block acetylcholine release, thereby causing dysautonomia and motorparalysis (i.e. botulism). The cellular action of BoNTs can be depicted according to a three steps model: binding, internalisation and intraneuronal action. The toxins heavy chain mediates binding to specific receptors followed by endocytotic internalisation of BoNT/receptor complex. BoNT receptors may comprise gangliosides and synaptic vesicle-associated proteins as synaptotagmins. Vesicle recycling induces BoNT internalisation. Upon acidification of vesicles, the light chain of the neurotoxin is translocated into the cytosol. Here, this zinc-endopeptidase cleaves one or two among three synaptic proteins (VAMP-synaptobrevin, SNAP25, and syntaxin). As the three protein targets of BoNT play major role in fusion of synaptic vesicles at the release sites, their cleavage is followed by blockage of neurotransmitter exocytosis. The duration of the paralytic effect of the BoNTs is determined by 1) the turnover of their protein target; 2) the time-life of the toxin light chain in the cytosol, and 3) the sprouting of new nerve-endings that are retracted when the poisoned nerve terminal had recovered its full functionality.
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PMID:[Mode of action of botulinum neurotoxin: pathological, cellular and molecular aspect]. 1292 28

Botulinum neurotoxins (BoNTs), a group of bacterial proteins that comprise a light chain disulfide linked a heavy chain, are the most lethal biotoxins known to mankind. By inhibiting neurotransmitter release, BoNTs cause severe neuroparalytic disease, botulism. A series of important findings in the past 10 years which displayed the molecular targets of BoNTs and hence proposed a four-step action mechanism to explain BoNT intoxication greatly advanced the study of antibotulismic drug. In this article, we reviewed these progresses and anti-botulismic compounds found in recent years. These compounds function due to their facilitation on neurotransmitter release or to their interference on the binding, internalization, translocation, and endopeptidase activity of the toxins. Toosendanin is a triterpenoid derivative extracted from a digestive tract-parasiticide in Chinese traditional medicine. Chinese scientists have found that the compound is a selective prejunctional blocker. In spite of sharing some similar action with BoNT, toosendanin can protect botulism animals that have been administrated with lethal doses of BoNT/A or BoNT/B for several hours from death and make them restore normal activity. The neuromuscular junction preparations isolated from the rats that have been injected with toosendanin tolerate BoNT/A challenge. Toosendanin seems to have no effect on endopeptidase activity of BoNT, but blocks the toxin approach to its enzymatic substrate.
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PMID:Cure of experimental botulism and antibotulismic effect of toosendanin. 1516 42

Botulinum neurotoxin type A (BoNT/A) is the etiological agent responsible for botulism, a disease characterized by peripheral neuromuscular blockade. BoNT/A is produced by Clostridium botulinum as a single chain protein that is activated by proteolytic cleavage to form a 50 kDa light chain (LC, 448 amino acids) and a disulfide bond-linked 100 kDa heavy chain (HC, 847 amino acids). Whilst HC comprises the receptor binding and translocation domains, LC is a Zn2+-endopeptidase that cleaves at a single glutaminyl-arginine bond corresponding to residues 197 and 198 at the C-terminus of SNAP25. Cleavage of SNAP25 uncouples the neural exocytosis docking/fusion machinery. LC/A (LC 1-448) and several C-terminal deletion proteins of LC/A were engineered and expressed as His-tagged fusion proteins in Escherichia coli. LC 1-448 was purified, but precipitated upon storage. Approximately 40% of LC 1-448 was a covalent dimer due to the formation of inter-chain disulfide bond formation at Cys430. Conversion of Cys430 to Ser abolished dimer formation of LC 1-448, but did not improve solubility. Three C-terminal deletion peptides were engineered; LC 1-425 and LC 1-418 were expressed and could be purified as soluble and stable proteins, whilst LC 1-398 was soluble, but not stable to storage. Kinetic studies showed that LC 1-448 and LC 1-425 efficiently cleaved GST-SNAP25 and the fluorescent substrate SNAPtide, while LC 1-418 catalyzed the cleavage of both the SNAP25 and the fluorescent substrate SNAPtide with a similar Km, but at a 10-fold slower kcat. Thus, regions within the C-terminus of LC/A contribute to solubility, stability, and catalysis.
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PMID:The C-terminus of botulinum neurotoxin type A light chain contributes to solubility, catalysis, and stability. 1529 97

Microdialysis has become an effective and frequently used technique to study the extracellular levels of monoamine, i.e. dopamine, serotonin and norepinephrine in the central nervous system. However, the detailed exocytosis mechanisms of monoamine using microdialysis has remained to be clarified. The present report introduces methods for administration of voltage-sensitive calcium channel (VSCC) inhibitors and soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) inhibitors to clarify the mechanisms of monoamine exocytosis using in vivo microdialysis. The N-type and P-type VSCCs are inhibited by perfusion with omega-conotoxin GVIA and omega-agatoxin IVA, respectively; however, their diffusion rate from internal to external spaces of the microdialysis probe is lower than 1%. Unlike VSCC inhibitors, SNAP-25, synaptobrevin and syntaxin can be cleavaed with botulinum toxin type A, B and C, respectively. These toxins (with molecular weights over 500,000) bind specifically to the presynaptic membrane via the heavy chain, while the light chain enters the cytosol, where it displays zinc-endopeptidase activity directed to proteins of the neuroexocytosis apparatus. Therefore, to prevent SNARE activity, botulinum toxins are microinjected. These two methods, perfusion with VSCC inhibitors and microinjection with botulinum toxins, can contribute to the clarification of the mechanisms of monoaminergic exocytosis.
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PMID:[Methodological consideration in studying the exocytosis mechanisms using microdialysis]. 1548 14


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