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: UMLS:C0026764 (
multiple myeloma
)
36,148
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Analysis of A/J antibody to phosphorylcholine (PC) revealed a striking degree of similarity to PC-binding
myeloma
proteins of BALB/c origin. By quantitative idiotypic analysis A/J anti-PC antibody was composed to antibodies bearing binding site idiotypic determinants indistinguishable from two different BALB/c
myeloma
proteins, T15 and M511. Idiotypic determinants of three other PC-binding proteins,
W3207
, M167, and M603 were not detected. Isoelectric focusing of the light chains verified the presence of antibodies similar to T15 and M511 and indicated the presence of a third antibody whose light chains had a pI identical to that of M603. When the sequence of A/J heavy chains were compared to the heavy chains of T15, M511, and M603, both the framework and first complementarity regions were identical in all cases. Sequences analysis of the light chains through part of the first complementarity region revealed three chains, one similar to each of the
myeloma
proteins T15, M603, and M167-M511. The latter two sequences differ by only a single amino acid (a single base substitution) in the first 23 residues, suggesting that the two light chains may be very similar if not identical. Thus, BALB/c and A/J mice which differ genetically at multiple loci including the heavy chain allotype complex locus show a remarkable preservation of their anti-PC antibodies. These results indicate that the genes encoding these antibodies are contained in the germ line.
...
PMID:Expression of equivalent clonotypes in BALB/c and A/J mice after immunization with phosphorylcholine. 6 19
The binding site interactions between the phosphorylcholine (phosphocholine)-binding mouse
myeloma
proteins TEPC 15,
W3207
, McPC 603, MOPC 167, and MOPC 511 and the isotopically substituted hapten phosphoryl[methyl-13C]choline have been investigated using 13C and 31P nuclear magnetic resonance (NMR) spectroscopy. Each protein exhibits a unique NMR pattern, but extensive similarities in chemical shift parameters upon binding of hapten to immunoglobulin suggest a significant degree of conservation of important hapten-binding site interactions. Moreover, independent binding studies, in conjunction with the NMR data, allow construction of a simple model of the binding sites of these antibodies, analyzed in terms of the relative strength of interaction between hapten and two main subsites. The NMR evidence supports the view that the heavy chains of these proteins dominate in interacting with bound phosphorylcholine; the various subspecificities of these proteins for phosphorylcholine analogues can be accounted for by amino acid changes in the hypervariable regions of the heavy chains.
...
PMID:Structure-function relations in phosphorylcholine-binding mouse myeloma proteins. 40 72
The circular dichroism (CD) spectra of five
myeloma
and six hybridoma proteins specific for phosphocholine were measured in the 250-310-nm range. The effect on the CD spectra of adding phosphocholine was also examined. The five
myeloma
proteins all had distinctive native spectra and, except for M603 and
W3207
, unique changes occurred on ligand binding. The hybridomas were chosen as pairs from each of the three known families of phosphocholine-specific immunoglobulins. Those from the T15 or M603 families resembled the appropriate prototype. However, the proteins from the M167 family were all distinctively different in their CD properties. In particular, the hybridoma protein 101.6G6 showed large CD changes on hapten binding and values for the association constant for phosphocholine of 1.1 X 10(5) M-1 and of 5.8 X 10(2) M-1 for acetylcholine were obtained by CD spectrophotometric titration. The CD properties of the proteins are interpreted in the light of the sequence data so far available, including the possible role of the D-segment.
...
PMID:The circular dichroism of phosphocholine-specific mouse hybridoma and myeloma proteins: unusual properties of the hybridoma protein 101.6G6. 258 46
A phosphorylcholine (PC)-binding IgG (Mab2) antibody produced by a hybridoma derived from a BALB/c mouse which had been immunized against Trichinella spiralis was found to bind to the immunizing antigen (TSC) but not to other PC-associated antigens such as pneumococcal antigen (PNC) and PC-conjugated ovalbumin (PC-OVA). Sequence analysis of the protein revealed the presence of a heavy chain (VH) which was very similar (differing in only four amino acids) to that of the M511
myeloma
protein, and a light chain (VL) which was completely identical to that of the M167
myeloma
protein. Several M511/M167+ proteins, including the prototypic M511 protein and PC-binding proteins of other families (TEPC 15 and
W3207
), were examined in their binding to the various PC-associated antigens. These were found to be largely indiscriminate although subtle differences were observed for some antigens with some of the antibodies. A comparison of the VH sequences of Mab2 and these proteins revealed that of the differences seen, the single most important substitution in Mab2 which could contribute to the unique specificity of the molecule is the glycine residue at 49H. None of the other proteins, including other PCV-binding proteins published to-date, which utilize the same VH segment (99 in total), has this substitution.
...
PMID:Structural analysis of a phosphorylcholine-binding antibody which exhibits a unique carrier specificity for Trichinella spiralis. 793
