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:C0026764 (multiple myeloma)
36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several methods of preparing low molecular weight RNA from chick embryo chromatin have been examined. Traditional methods for dissociating chromatin utilizing high concentrations of salt (greater than 2 M) followed by high-speed centrifugation resulted in very low yields of RNA. Increased yields of RNA were obtained by treating chromatin at lower salt concentration (0.2-0.5 M). By using low salt extraction and sodium dodecyl sulfate-phenol deproteinization, six to eight low molecular weight homogeneous RNA species were isolated from chick embryo chromatin and mouse myeloma chromatin. In the myeloma system, all these RNAs are metabolically stable. Each component is homogeneous as examined by gel electrophoresis and hybridizes with mouse DNA at a rate consistent with a single species. There are multiple gene copies for these RNA species in the mouse genome, varying from 100 to 2000 copies for the different species. One of these RNAs is identical with 5S rRNA. In addition, the redundancy of genes for 18S, 28S, and 5S rRNA and tRNA was determined. Approximately 300 copies for 18 and 28S rTRNA and 500 copies for 5S rRNA were found. tRNAs were on an average 110-fold redundant with about 55 different species measured.
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PMID:Low molecular weight RNA species from chromatin. 117 46

Patients suffering from malignant disease will probably develop some metabolic abnormality of electrolytes. Hypernatremia is defined as an elevation of serum natrium over 150 mEq/l and caused by decrease of water intake, low level of ADH secretion and impaired response of kidney to ADH. Hyponatremia below 135 mEq/l of serum natrium is caused by SI-DAH, sick cell syndrome and increased loss of natrium from the kidney. On the other hand, hyperkalemia is defined as an elevation of serum kalium over 5.0 mEq/l and caused by acute tumor cell lysis syndrome, adrenal and renal insufficiency. Hypokalemia is caused by kalium loss from kidney and hypersecretion of mineral corticoid. Hypercalcemia is found in the high frequency among patients with malignant disease. Hypercalcemia is defined as an elevation of serum calcium over 11.0 mg/dl, although the most important aspect is the level of ionized calcium. The excess calcium causes defective urinary concentration with polydipsia, nausea and vomiting leading to volume depletion. At serum calcium levels about 13.8 mg/dl, there may be rapid deterioration or renal function, dehydration, coma and cardiac arrhythmias. Hypercalcemia is rarely the first manifestation of cancer. There are three principle pathogenic causes of malignant hypercalcemia, 1) hypercalcemia is a feature of several hematological cancers, including Burkitt's lymphoma, T cell leukemia, but most commonly with myeloma. The hypercalcemia in these myeloma patients is due to the secretion of an osteoclast activator, a lymphokine by the myeloma cells. 2) all patients with bony metastases have biochemical evidence of increased bone resorption. However, not all patients with bony metastases develop hypercalcemia. Probably the hypercalcemia is due partially to increased renal tubular reabsorption of calcium, mediated by a humoral factor, with activity similar to that of parathormone. 3) hypercalcemia in the patients without bony metastases is due to increased bone resorption caused by the ectopic secretion by the tumor. Mildly symptomatic patients will benefit from modest salt loading. They are dehydrated and replacement of the extracellular fluid is the first line of treatment. This may require 4-10 l normal saline/24 h. In addition, frusemide will increase calcium excretion. Calcitonin may be given subcutaneously or intravenously to refuse the mobilisation of calcium from bone. Glucocorticoids are unhelpful, but will prolong the effect of calcitonin. A diphosphonate is also useful.
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PMID:[Palliative therapy in cancer. 4. Palliation of the symptoms from a malignant tumor. (2)]. 169 56

In these experiments we characterize the protective antibodies in immune serum that interact synergistically with immune thoracic duct lymphocytes (TDL) to induce rapid expulsion (RE) of Trichinella spiralis in adult rats. Antibodies with both reaginic and nonreaginic activity mediated RE upon passive transfer to adult rats that had been adoptively transfused with immune TDL 7 days earlier. In serum collected 28 days after a primary infection, the most important antibody was homocytotropic IgE. Native IgE produced by active infection was isolated from 28-day immune serum by salt precipitation and/or by sequential affinity chromatography. The murine mAb A2 and B5 (anti-rat IgE) were conjugated separately to Sepharose 4B affinity columns for affinity separations. IgE was shown to be pure by gel electrophoresis and Western blots and its m.w. was estimated at approximately 190,000. As little as 183 micrograms of purified IgE could induce RE after passive transfer to adult rats. The IgE was shown to be functional by PCA activity, Ag-binding on Western blots, and skin sensitization; the latter could be blocked by pretreatment with 1R162, a rat myeloma IgE. Monoclonal IgG of any isotype transferred in amounts up to 35 mg/rat could not transfer RE to rats previously transfused with TDL cells. Immune serum collected 3 mo after the primary infection contained insufficient IgE to transfer RE, but complex non-IgE fractions were protective. The data thus demonstrate that IgE is a functional Ig in the rat capable of mediating the rejection of challenge nematode infections of the gut in the absence of other specific Ig. Secondly, other Ig may also play a role, in particular, several weeks after the primary infection when specific IgE levels in serum have declined.
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PMID:A role for IgE in intestinal immunity. Expression of rapid expulsion of Trichinella spiralis in rats transfused with IgE and thoracic duct lymphocytes. 202 81

Interaction of DNA with eukaryotic cells under conditions similar to those providing DNA adsorption onto liposomes was studied. It was revealed that mouse fibroblasts (line A9) and myeloma cells bind phage and plasmid DNA in 0.3 M sucrose solution containing Mg2+-ions. Additional pretreatment of the cells by trypsin did not affect DNA adsorption efficiency. The major part of the adsorbed DNA recovered by salt treatment of the cells, but 10-15% of DNA was found to be irreversible. Up to 50% of the irreversibly bound DNA molecules retain their linear size after treatment of cells with DNAse I. Efficiencies of DNA adsorption and irreversibly binding depend on the concentration of Mg2+ in the medium. The process of DNA irreversible binding is not inhibited by drugs affecting cell metabolism. It is assumed that DNA adsorbs onto the phospholipid domains of the cell membrane, and part of the adsorbed DNA is taken up into the interior of the cells.
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PMID:[Mg2+-dependent interaction of DNA with eukaryotic cells]. 325 55

Progesterone receptor (PR) from a human endometrial carcinoma (EnCa 101) grown in nude mice consists of two hormone-binding proteins with mol wt around 116,000 and 85,000. To generate monoclonal antibodies against this receptor, PR was partially purified from EnCa 101 and used to immunize Robertsonian mice. Immune mouse spleens were fused with HL-1 Friendly myeloma-653 cells, and hybridomas were screened by solid phase dot-blot assay and double antibody precipitation. Seven stable hybridomas were obtained, designated hPRa 1-7. Subisotyping revealed that hPRa 1 and 6 were immunoglobulin G2b, while the remainder were immunoglobulin G1. Ultracentrifugation in high salt sucrose gradients showed that six of the seven antibodies effected a shift of [3H]progestin-labeled PR from EnCa 101; only hPRa 4 was ineffective in this regard. Protein blots of EnCa 101 cytosols and DEAE eluates revealed that hPRa 1, 3, 4, 5, and 7 recognized both PR proteins equally. hPRa 2 recognized principally the 116,000 mol wt PR protein; it recognized the lower mol wt PR protein very poorly if at all, whereas hPRa 6 recognized only the 116,000 mol wt protein. Interestingly, the latter was consistently detected as a closely migrating triplet. Immunolocalization of PR by hPRa 1-7 in tissue sections was confined to nuclei of target tissues and varied in intensity: hPRa 7 greater than 3 = 5 greater than 6 = 2 greater than 1 greater than 4. In proliferative phase uterus, the intensity of staining was ranked: endometrial gland nuclei (3+) greater than myometrial cell nuclei (2-3+) greater than endometrial stromal cell nuclei (0-1+). Thus, seven monoclonal antibodies directed against human PR have been prepared, and their suitability for the study of PR by biochemical and immunohistochemical techniques has been demonstrated.
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PMID:Monoclonal antibodies to human progesterone receptor: characterization by biochemical and immunohistochemical techniques. 330 78

Actin-based gels were prepared from clarified high-salt extracts of human platelets by dialysis against physiological salt buffers. The gel was partially solubilized with 0.3 M KCl. Mice were immunized with the 0.3 M KCl extract of the actin gel, and hybridomas were produced by fusion of spleen cells with myeloma cells. Three hybridomas were generated that secrete antibodies against an 80-kD protein. These monoclonal antibodies stained stress fibers in cultured cells and cross-reacted with proteins in several tissue types, including smooth muscle. The cross-reacting protein in chicken gizzard smooth muscle had an apparent molecular weight of 140,000 and was demonstrated to be caldesmon, a calmodulin and actin-binding protein (Sobue, K., Y. Muramoto, M. Fujita, and S. Kakiuchi, Proc. Natl. Acad. Sci. USA, 78:5652-5655). No proteins of molecular weight greater than 80 kD were detectable in platelets by immunoblotting using the monoclonal antibodies. The 80-kD protein is heat stable and was purified using modifications of the procedure reported by Bretscher for the rapid purification of smooth muscle caldesmon (Bretscher, A., 1985, J. Biol. Chem., 259:12873-12880). The 80-kD protein bound to calmodulin-Sepharose in a Ca++-dependent manner and sedimented with actin filaments, but did not greatly increase the viscosity of F-actin solutions. The actin-binding activity was inhibited by calmodulin in the presence of calcium. Except for the molecular weight difference, the 80-kD platelet protein appears functionally similar to 140-kD smooth muscle caldesmon. We propose that the 80-kD protein is platelet caldesmon.
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PMID:Identification by monoclonal antibodies and characterization of human platelet caldesmon. 351 5

Gallium nitrate is the anhydrate salt of the naturally occurring heavy metal. It has demonstrated antitumor activity in a variety of murine tumor models, including Walker carcinosarcoma 256, fibrosarcoma M-89, leukemia K-1964, adenocarcinoma 755, mammary carcinoma YMC, reticulum cell sarcoma A-RCS, lymphoma P1798, and osteosarcoma 124F. Preclinical studies performed in rats, rabbits, dogs, and monkeys showed the dose-limiting toxicity to be renal. The hepatic, pulmonary, gastrointestinal, hematologic, and integumentary systems were also involved. The major route of elimination is the kidneys, with 35%-71% of the infused dose excreted within 24 hours. Three phase I studies suggested the following phase II doses: 700-750 mg/m2 by short infusion, once every 2-3 weeks; 300 mg/m2/day by short infusion for 3 consecutive days, to be repeated every 2 weeks; and 300 mg/m2/day by continuous infusion for 7 consecutive days, to be repeated every 3-5 weeks. The major organ toxicity reported was renal; however, this can be adequately controlled either by hydration and osmotic diuresis or by use of continuous schedule. (Either maneuver appears to allow delivery of the recommended phase II dose with a less than 30% risk of change in serum creatinine.) In limited phase II evaluation, the drug has shown antitumor activity in patients with either refractory lymphomas or small cell lung carcinoma, with total objective response rates of 28% and 11%, respectively. In addition, it has been effective in the treatment of patients with cancer-related hypercalcemia by having an inhibitory effect on calcium reabsorption from bone. Single-agent phase II studies are planned in all major tumor types. Some are already ongoing in patients with genitourinary malignancies (renal, bladder, prostate, testicular), small cell lung carcinoma, and multiple myeloma. Metabolic studies are in progress at Memorial Sloan-Kettering Cancer Center to further elucidate the mechanism or mechanisms of the hypocalcemic effects.
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PMID:Gallium nitrate: the second metal with clinical activity. 353 51

A polypeptide of identical molecular mass (Mr 83,000) and charge to desmosomal plakoglobin from bovine snout epidermis was identified in soluble and pelletable fractions from diverse tissues and cells of different mammalian species, including cells and tissues devoid of desmosomes (e.g. endothelial, retinal, lenticular cells, fibroblasts). The protein, however, was not detected in erythrocytes and platelets and in myeloma cells, nor in smooth muscle tissue. In all cells examined, the plakoglobin soluble upon cell lysis in buffers of near-physiological pH and ionic strength (21-31% of the total plakoglobin in the different cell types) was found to exist in a distinct molecular form. On sucrose gradient centrifugation it appeared at about 7 S and gel filtration chromatography revealed a Stokes radius of about 5.0 nm, from which an Mr of about 170,000 was estimated. By using isoelectric focusing under non-denaturing conditions, soluble approximately equal to 7-S plakoglobin had an isoelectric point at about pH 5.3. The plaque-bound and the soluble form of plakoglobin were indistinguishable by electrical charge and molecular mass, regardless of the source, indicating molecular identity. Cross-linking of soluble proteins with cupric 1,10-phenanthroline resulted in the formaton of a cross-linked product of plakoglobin with similar physical properties as the native approximately equal to 7-S particle, which is compatible with the interpretation that the soluble plakoglobin particle is a dimer. While a major proportion of the plakoglobin in the desmosomal plaque was resistant to various extraction procedures, plakoglobin present in the plaques of non-desmosome-containing cells and tissues was readily extractable under low and high salt conditions. This indicates that differences exist in the binding of plakoglobin to desmosomal plaques and the plaques of non-demosomal junctions.
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PMID:Biochemical characterization of the soluble form of the junctional plaque protein, plakoglobin, from different cell types. 360 23

A 36,000-Mr protein purified from mouse myeloma on the basis of selective binding to a single-stranded DNA (ssDNA)-cellulose column has been identified as the lactate dehydrogenase A (LDH-A) subunit. A homogeneous preparation of this mouse myeloma ssDNA-binding protein, termed the 'low-salt-eluting protein', was found to possess LDH activity, and rabbit antiserum prepared against this protein was shown to cross-react with purified 36,000-Mr LDH-A subunits from mouse and bovine sources. In addition, bovine and human LHD-A4 isoenzymes were shown to be capable of binding ssDNA. These enzymic and immunological identities with LDH-A were not observed with purified helix-destabilizing protein 1 from mouse myeloma. A model for ssDNA-LDH binding is discussed.
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PMID:Identification of the mouse low-salt-eluting single-stranded DNA-binding protein as a mammalian lactate dehydrogenase-A isoenzyme. 370 35

Cloned hybrid cells, selected for their ability to secret an IgG 2a immunoglobulin specific for single-stranded (ss) nucleic acids, were obtained by fusion of spleen cells from an unimmunized autoimmune MRL/1 pr male mouse with nonsecreting myeloma cells (MOPC-21, line Sp2/0-Ag 14). Designated MRss-1, this monoclonal antibody was (i) propagated by intraperitoneal injection of hybrid cells to pristane-treated. Balb/c mice, (ii) purified from the bulk of other proteins in ascites extracts by chromatography with DEAE-Sephacel adsorbent, and (iii) radiochemically labeled via reductive methylation using NaB3H4 and formaldehyde. The binding of 3H-labeled antibody to immobilized ssDNA- agarose, calf thymus) or soluble (fd DNA) ssDNA was rapid and dependent upon ssDNA and ionic strength, but not hydrogen ion concentration. Optimal binding occurred in both low and intermediate salt concentration (0.1-0.25 M NaCl), yet was completely abolished above 0.30 M NaCl. The presence of guanine (Gua)-containing mono-, oligo-, and polynucleotides also abolished and/or decreased 3H-labeled antibody binding to ssDNA-agarose. In these competition assays, the amount of Gua-containing mono-and oligonucleotides required to inhibit antibody binding by 50% (0.2-1.0 mg/mL) exceeded those of poly(G), rRNA, and fd DNA (i.e., 0.03-0.1 microgram/mL) by 4 orders of magnitude. In contrast, (deoxy)ribose 5'-phosphate as well as other nucleic acid derivatives devoid of Gua failed to inhibit antibody binding. The above findings were substantiated by the observation that 3H-labeled antibody bound to guanosine (G)- and guanidylate (pG)-conjugated Sepharose, yet not to other nucleoside (A, C, and U)- or nucleotide (pA, pC, and pU)-conjugated adsorbents. Last, the introduction of the methyl group at the N-2, O-6, and N-7 positions in the Gua ring system completely abolished antibody binding. Collectively, these results demonstrate that the MRss-1 antibody recognized single-stranded nucleic acid substrates by virtue of their content of guanidylate residues and, more specificity, by the presence of the Gua base moiety.
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PMID:Antibody-nucleic acid complexes. Identification of antigenic determinant of a murine monoclonal antibody specific for single-stranded nucleic acids. 617 38


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