EC:3.4.21.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The oxidation of ascorbic acid leads to the formation of several compounds which are capable of reacting with protein amino groups via a Maillard reaction. Radioactivity from [1-14C]ascorbic acid was linearly incorporated into lens crystallins over a 10 day period in the presence of NaCNBH3. This rate of incorporation was 6-7-fold more rapid than that obtained with [14C]glucose under the same conditions. SDS-PAGE showed a linear incorporation into all the crystallin subunits. [1-14C]Ascorbic acid-label led alpha-crystallin was separated into its component A and B subunits, and each was digested with chymotrypsin. HPLC peptide analysis showed a differential labelling of the various lysine residues. Analysis of the peptides by mass spectrometry allowed the identification of the sites and the extent of modification. These values ranged from 6% for Lys-78 to 36% for Lys-11 in the A subunit and from 5% for Lys-82 to an average of 38% for the peptide containing Lys-166, Lys-174 and Lys-175 in the B subunit. Amino acid analysis demonstrated a single modification reaction producing N epsilon-(carboxymethyl)lysine. This agreed with the mass increase of 58 observed for each modified peptide.
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PMID:Site-specific glycation of lens crystallins by ascorbic acid. 152 82

Alpha-crystallin exhibits variable inhibition of several members of the chymotrypsin family of proteinases. Complete inhibition of elastase was obtained by the addition of either alpha-crystallin or a sonicated preparation of the water-insoluble fraction from bovine lens. Little or no inhibition was seen, however, with either beta-crystallin or bovine serum albumin under the same conditions. Complete binding of elastase was demonstrated by Sephadex G-100 gel filtration chromatography, and a direct correlation between binding and inhibition was obtained. This observation permitted us to do a Scatchard analysis of the inhibition data. Scatchard plots for the binding of elastase gave a biphasic response suggesting two separate binding sites. These sites had Kd values of 15 and 40 nM for alpha-crystallin and 6 and 42 nM for the bovine water-insoluble fraction. Similarly, a Dixon plot exhibited a Ki value of 3 nM and was consistent with non-competitive inhibition. One mole of alpha-crystallin (8 x 10(5) Da), or an equivalent amount of water-insoluble protein, bound from 13 to 19 mol of elastase which were about equally divided between the higher and lower affinity sites. Saturation studies confirmed 20 and 16 elastase binding sites per 8 x 10(5) Da for alpha-crystallin and water-insoluble protein, respectively. DFP-elastase was capable of binding to alpha-crystallin suggesting that a proteolytic cleavage was not required for complex formation. Stability measurements showed a linear return to 60% of the original activity over a 30-min period. Therefore, the interaction between elastase and alpha-crystallin resembles that of a heterologous protease:inhibitor complex in both binding and stability.
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PMID:Characterization of the elastase inhibitor properties of alpha-crystallin and the water-insoluble fraction from bovine lens. 154 28

Polyclonal antisera to whole crystallins and to synthetic peptides corresponding to various sequences of these crystallins have been used to probe Western blots that contain a low molecular weight component of approximately 10,000 daltons found in the water-soluble fractions from human cataractous lenses. This 10K component binds only to antiserum made against human gamma crystallin. Incubation of human cataractous lens homogenates with alpha chymotrypsin or trypsin will produce low molecular components of similar molecular weight, and identical specificity of binding to the gamma crystallin antiserum. Together, these results suggest that the gamma crystallins constitute a class of macromolecules that are susceptible to in vivo proteolysis during cataractogenesis of the aged human lens.
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PMID:Immunochemical characterization of the major low molecular weight polypeptide (10K) from human cataractous lenses. 246 75

Protein-mixed disulfides (PSSG) were formed by interaction of glutathione disulfide (GSSG) with lens crystallins. Total water-soluble crystallins and alpha-crystallin purified on a Sephacryl S-200 column were separately incubated with 0, 2, 4, and 8 mM (final concentrations) GSSG overnight and then dialyzed to remove unbound GSSG and GSH. Either TPCK-treated trypsin or TLCK-treated alpha-chymotrypsin were added to about 200 micrograms crystallin samples and incubated for 20 min at room temperature. Reactions were terminated by boiling in SDS-mercaptoethanol-Tris (pH 6.8) solution and subjected to electrophoresis on 10% polyacrylamide slab gels. Comparison of SDS-PAGE patterns of proteolysis with or without GSSG treatment showed that GSSG at a concentration of 2 mM or higher reduced or abolished proteolysis of alpha-crystallin by trypsin but not by alpha-chymotrypsin. The protective effect of GSSG was greater with alpha-crystallin than with beta-crystallins. Addition of alpha-crystallin-mixed-disulfide to an assay system in which trypsin was hydrolyzing N-alpha-benzoyl-DL-arginine-P-anilide (BAPNA) inhibited the tryptic activity. Direct addition of GSSG or native alpha-crystallin had no significant inhibitory effect on trypsin. Based on these results, it is speculated that alpha-crystallin glutathione mixed-disulfide appears to become resistant to trypsin probably by non-competetive inhibition of the enzyme.
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PMID:Resistance of alpha-crystallin-glutathione mixed-disulfide to tryptic digestion. 301 92

One of the major lens-structural proteins, alpha-crystallin, is a multimeric protein containing 40 subunits of approx. 20 kDa each. There are two subunit types with distinct but similar structures. This protein was capable of inhibiting trypsin, chymotrypsin and elastase, but had no effect on thrombin or kallikrein. Complete inhibition was not observed, but rather plateau levels of inhibition were obtained in each case. Maximum inhibition was observed at a ratio of 1 mol of alpha-crystallin for every 9-10 mol of trypsin. alpha-Crystallin also inhibited the labeling of the active site of trypsin by [3H]diisopropyl fluorophosphate (DFP). Greater than 90% inhibition of DFP labeling was observed at a ratio of 1 mol of alpha-crystallin for every 7-8 mol of trypsin. Both trypsin and [3H]DFP-labeled trypsin formed a complex with alpha-crystallin, as demonstrated by gel-filtration chromatography. The active site of trypsin when bound to alpha-crystallin was still capable of reacting with p-nitrophenyl p-guanidobenzoate and soybean trypsin inhibitor, but was inaccessible to alpha 1-antitrypsin. These data suggest that alpha-crystallin acts as a multivalent modified inhibitor which is consistent with the proposed quaternary structure of alpha-crystallin.
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PMID:The binding and inhibition of trypsin by alpha-crystallin. 349 15

Two intrinsic membrane proteins of calf lens fiber cells can be phosphorylated by a soluble bovine lens cAMP-dependent protein kinase and rabbit muscle cAMP-dependent protein kinase. After electrophoresis of the phosphorylated membranes, 32P comigrates with the lens main intrinsic protein at 26-27 kDa and with a minor band of protein that migrates at 19-20 kDa. 32P is also found with proteins that, based on the molecular sizes, are likely multimers of the 19-kDa and 26-kDa proteins. Upon boiling in NaDodSO4, all the radioactivity is found at the top of the gel, suggesting that both phosphoproteins are intrinsic membrane proteins. Serine is the only phospho amino acid detected in both proteins regardless of the source of protein kinase. The phosphorylation sites of both proteins are lost upon cleavage with trypsin and chymotrypsin. The smaller phosphoprotein is likely not a crystallin, because antibodies directed against alpha-, beta-, or gamma-crystallins do not cross-react with the 19-kDa protein. The 19-kDa 32P-labeled protein does not migrate coincident with calf alpha-crystallin.
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PMID:Phosphorylation of lens fiber cell membrane proteins. 388 45

The sequence around the thiol group in lens proteins has been investigated. The proteins were converted into their carboxy[(14)C]methyl derivatives and submitted to partial acid hydrolysis, or digested with proteolytic enzymes. Acid hydrolysis of bovine alpha-crystallin gives N-seryl-(S-carboxymethyl)cysteine, Ser-CMCys (Waley, 1965a), but this dipeptide is not obtained from beta-crystallin or gamma-crystallin. Trypsin and chymotrypsin also give different peptides from the three crystallins. The radioactive peptide from alpha-crystallin and chymotrypsin has the sequence Ser-CMCys-Ser-Leu; another peptide, Asp-Leu-Leu-Phe, was also identified. The radioactive peptides obtained from bovine alpha-crystallin are probably also obtained from human alpha-crystallin, and from bovine and human albuminoid (the insoluble lens protein). alpha-Crystallin has been fractionated by chromatography in urea on DEAE-cellulose. Comparison of the fractions by peptide ;mapping', and immunochemically, shows that they fall into two classes. The fraction eluted first differs from the later fractions, but the later fractions resemble each other The first fraction may represent impurities, or it may be a structurally different sub-unit of alpha-crystallin.
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PMID:Structural studies on lens proteins. 603 5

Electrospray ionization mass spectrometry (ESI-LC/MS) of tryptic digests of human alphaB-crystallin in the presence and absence of ATP identified four residues located within the core "alpha-crystallin" domain, Lys(82), Lys(103), Arg(116), and Arg(123), that were shielded from the action of trypsin in the presence of ATP. In control experiments, chymotrypsin was used in place of trypsin. The chymotryptic fragments of human alphaB-crystallin produced in the presence and absence of ATP were analyzed using liquid chromatography-tandem mass spectrometry (LC-MS/MS). Seven chymotryptic cleavage sites, Trp(60), Phe(61), Phe(75), Phe(84), Phe(113), Phe(118), and Tyr(122), located near or within the core alpha-crystallin domain, were shielded from the action of chymotrypsin in the presence of ATP. Chemically similar analogs of ATP were less protective than ATP against proteolysis by trypsin or chymotrypsin. ATP had no effect on the enzymatic activity of trypsin and the K(m) for trypsin was 0.031 mM in the presence of ATP and 0.029 mM in the absence of ATP. The results demonstrated an ATP-dependent structural modification in the core alpha-crystallin domain conserved in nearly all identified small heat-shock proteins that act as molecular chaperones.
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PMID:ATP and the core "alpha-Crystallin" domain of the small heat-shock protein alphaB-crystallin. 1051 9

Mycobacterium tuberculosis heat shock protein 16.3 (MTB HSP 16.3) accumulates as the dominant protein in the latent stationary phase of tuberculosis infection. MTB HSP 16.3 displays several characteristics of small heat shock proteins (sHsps): its expression is increased in response to stress, it protects against protein aggregation in vitro, and it contains the core 'alpha-crystallin' domain found in all sHsps. In this study we characterized the chaperone activity of recombinant MTB HSP 16.3 in several different assays and compared the results to those obtained with recombinant human alphaB-crystallin, a well characterized member of the sHsp family. Recombinant MTB HSP 16.3 was expressed in Escherichia coli and purified to apparent homogeneity. Similar to alphaB-crystallin, MTB HSP16.3 suppressed citrate synthase aggregation and in the presence of 3.5 mm ATP the chaperone activity was enhanced by twofold. ATP stabilized MTB HSP 16.3 against proteolysis by chymotrypsin, and no effect was observed with ATPgammaS, a nonhydrolyzable analog of ATP. Increased expression of MTB HSP 16.3 resulted in protection against thermal killing in E. coli at 48 degrees C. While the sequence similarity between human alphaB-crystallin and MTB HSP 16.3 is only 18%, these results suggest that the functional similarities between these proteins containing the core 'alpha-crystallin' domain are much closer.
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PMID:Functional similarities between the small heat shock proteins Mycobacterium tuberculosis HSP 16.3 and human alphaB-crystallin. 1195 82

Methylglyoxal (MGO), a potent glycating agent, forms advanced glycation end products (AGEs) with proteins. Several diabetic complications including cataract are thought to be the result of accumulation of these protein-AGEs. alpha-Crystallin, molecular chaperone of the eye lens, plays an important role in maintaining the transparency of the lens by preventing the aggregation/inactivation of several proteins/enzymes in addition to its structural role. Binding of adenosine-5-triphosphate (ATP) to alpha-crystallin has been shown to enhance its chaperone-like function and protection against proteolytic degradation. In the earlier study, we have shown that modification of alpha-crystallin by MGO caused altered chaperone-like activity along with structural changes, cross-linking, coloration and subsequent insolubilization leading to scattering of light [Biochem. J. 379 (2004) 273]. In the present study, we have investigated ATP binding, stability and degradation of MGO-modified alpha-crystallin. Proteolytic digestion with trypsin and chymotrypsin showed that MGO-modified alpha-crystallin is more susceptible to degradation compared to native alpha-crystallin. Furthermore, ATP was able to protect native alpha-crystallin against proteolytic cleavage but not MGO-modified alpha-crystallin. Interestingly, binding studies indicate decreased ATP binding to MGO-modified alpha-crystallin and support the decreased protection by ATP against proteolysis. In addition, differential scanning calorimetric and denaturant-induced unfolding studies indicate that modification of alpha-crystallin by MGO leads to decreased stability. These results indicate that MGO-modification of alpha-crystallin causes partial unfolding and decreased stability leading to enhanced proteolysis. Cross-linking of these degraded products could result in aggregation and subsequent insolubilization as observed in senile and diabetic cataract lenses.
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PMID:Enhanced degradation and decreased stability of eye lens alpha-crystallin upon methylglyoxal modification. 1538 Oct 41

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