Characterization by spectroscopic, kinetic and equilibrium methods of the interaction between recombinant human cystatin A (stefin A) and cysteine proteinases

Pol, Ewa; Olsson, Sigrid-Lisa; Estrada, Sergio; Prasthofer, T; Björk, Ingemar

doi:10.1042/bj3110275

Cited by 38 publications

(102 citation statements)

References 43 publications

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“…Protein concentration was determined spectrophotometrically at 280 nm with the use of published [21,23] or calculated absorbance coefficients and molecular masses obtained from amino acid sequences [27].…”

Section: Methodsmentioning

confidence: 99%

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Inhibition of cruzipain, the major cysteine proteinase of the protozoan parasite, Trypanosoma cruzi, by proteinase inhibitors of the cystatin superfamily

et al. 1995

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Cruzipain, the major cysteine proteinase from Trypanosoma cruzi epimastigotes, purified to a sequentially pure form, exists in multiple forms with pl values between 3.7 and 5.1, and an apparent molecular mass of 41 kDa. The enzyme is stable between pH 4.5-9.5. Cruzipain was found to be rapidly and tightly inhibited by various protein inhibitors of the cystatin superfamily (ka. = 1.7-79 × 106 M-Is -1, K d = 1.4-72 pM). These results suggest a possible defensive role for the host's cystatins after parasite infection, and may be of use for the design of new therapeutic drugs.

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Section: Methodsmentioning

confidence: 99%

“…Human stefin A [20], recombinant human stefin A [21], recombinant human stefin B [22], chicken cystatin [23], recombinant human cystatin C [24] and human low molecular weight kininogen [25] were purified by published procedures.…”

Section: Inhibitorsmentioning

confidence: 99%

Inhibition of cruzipain, the major cysteine proteinase of the protozoan parasite, Trypanosoma cruzi, by proteinase inhibitors of the cystatin superfamily

et al. 1995

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“…Cathepsin C is inhibited by stefins A and B [13][14][15] and chicken cystatin [13,16], three protein inhibitors of cysteine proteinases from the cystatin superfamily [17]. All inhibitors were shown to be of the competitive, reversible type, with stefin A being the weakest by 2-3 orders of magnitude [13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

“…All inhibitors were shown to be of the competitive, reversible type, with stefin A being the weakest by 2-3 orders of magnitude [13][14][15][16]. However, the mechanism of interaction between cathepsin C and cystatins is not known.…”

Section: Introductionmentioning

confidence: 99%

Interaction of human cathepsin C with chicken cystatin

et al. 1996

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Cathepsin C was purified from human spleen by a rapid procedure, which included homogenization, ammonium sulfate precipitation, gel filtration on Sephacryl S-200 and fmally affinity chromatography on chicken cystatin-Sepharose. The interaction between cathepsin C and chicken cystatin was further characterized. It was found to be accompanied by a maximum decrease in fluorescence emission intensity at 330 nm. Fluorescence titration showed that human catbepsin C can bind four chicken cystatin molecules. The 4:1 binding stoichiometry was confirmed by titration monitored by the loss of enzyme activity. A non-competitive-competitive type of inhibition was determined from a double-reciprocal Lineweaver-Burk plot with a Kj value of 0.22 nM for the non-competitive inhibition.

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“…44, and the cystatin-like domain 3 of human kininogen (kininogen domain 3) was isolated as described previously (45) and recombinant thyroglobulin type 1 (Tg1) domain of human testican-1 as described previously (46). The recombinant human p41 fragment of the major histocompatibility complex class II-associated invariant chain, recombinant Tg1 domain of human nidogen-1, and recombinant Tg1 domain 1 of human nidogen-2 were produced in-house.…”

Section: Methodsmentioning

confidence: 99%

Interaction between Human Cathepsins K, L, and S and Elastins

Novinec

Grass²,

Stark³

et al. 2007

Journal of Biological Chemistry

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Proteolytic degradation of elastic fibers is associated with a broad spectrum of pathological conditions such as atherosclerosis and pulmonary emphysema. We have studied the interaction between elastins and human cysteine cathepsins K, L, and S, which are known to participate in elastinolytic activity in vivo. The enzymes showed distinctive preferences in degrading elastins from bovine neck ligament, aorta, and lung. Different susceptibility of these elastins to proteolysis was attributed to morphological differences observed by scanning electron microscopy. Kinetics of cathepsin binding to the insoluble substrate showed that the process occurs in two steps. The enzyme is initially adsorbed on the elastin surface in a nonproductive manner and then rearranges to form a catalytically competent complex. In contrast, soluble elastin is bound directly in a catalytically productive manner. Studies of enzyme partitioning between the phases showed that cathepsin K favors adsorption on elastin; cathepsin L prefers the aqueous environment, and cathepsin S is equally distributed among both phases. Our results suggest that elastinolysis by cysteine cathepsins proceeds in cycles of enzyme adsorption, binding of a susceptible peptide moiety, hydrolysis, and desorption. Alternatively, the enzyme may also form a new catalytic complex without prior desorption and re-adsorption. In both cases the active center of the enzymes remains at least partly accessible to inhibitors. Elastinolytic activity was readily abolished by cystatins, indicating that, unlike enzymes such as leukocyte elastase, pathological elastinolytic cysteine cathepsins might represent less problematic drug targets. In contrast, thyropins were relatively inefficient in preventing elastinolysis by cysteine cathepsins.Elastic fibers are the key extracellular matrix component conferring elasticity to tissues such as blood vessels, lungs, and skin. The fibers are composed of a rubber-like network of highly stable and hydrophobic polymers of the protein elastin, associated with peripheral microfibrils (1, 2). Proteolytic degradation of elastic fibers leads to loss of tissue elasticity, which is associated with the development of different pathological conditions. A large repertoire of elastinolytic peptidases has been identified in human cells and tissues, including enzymes from four of the five catalytic classes of peptidases. The molecular mechanism underlying the process of elastinolysis has been thoroughly studied for human leukocyte elastase (HLE) 2 (3-9), a serine peptidase produced by neutrophils, whose activity has been associated with the development of atherosclerosis and pulmonary diseases (10, 11). In addition, two other elastinolytic serine peptidases are present in neutrophils, cathepsin G and myeloblastin (leukocyte proteinase 3) (12).Extracellular matrix degradation by monocyte-derived macrophages is because of the action of serine peptidases, matrix metalloproteases, and papain-like cysteine peptidases (cysteine cathepsins) (13-16). In inflammation, m...

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Characterization by spectroscopic, kinetic and equilibrium methods of the interaction between recombinant human cystatin A (stefin A) and cysteine proteinases

Cited by 38 publications

References 43 publications

Inhibition of cruzipain, the major cysteine proteinase of the protozoan parasite, Trypanosoma cruzi, by proteinase inhibitors of the cystatin superfamily

Inhibition of cruzipain, the major cysteine proteinase of the protozoan parasite, Trypanosoma cruzi, by proteinase inhibitors of the cystatin superfamily

Interaction of human cathepsin C with chicken cystatin

Interaction between Human Cathepsins K, L, and S and Elastins

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