Expression of trypsin-like serine peptidases in pre-imaginal stages of Aedes aegypti (Diptera: Culicidae)

This study reports the biochemical characterization and comparative analyses of highly active serine proteases in the larval and pupal developmental stages of Aedes aegypti (Linnaeus) using substrate‐SDS‐PAGE. Zymographic analysis of larval stadia detected proteolytic activity in 6–8 bands with apparent molecular masses ranging from 20 to 250 kDa, with activity observed from pH 5.5 to 10.0. The pupal stage showed a complex proteolytic activity in at least 11 bands with apparent Mr ranging from 25 to 250 kDa, and pH optimum at 10.0. The proteolytic activities of both larval and pupal stages were strongly inhibited by phenyl‐methyl sulfonyl‐fluoride and N‐α‐Tosyl‐L ‐lysine chloromethyl ketone hydrochloride, indicating that the main proteases expressed by these developmental stages are trypsin‐like serine proteases. The enzymes were active at temperatures ranging from 4 to 85°C, with optimal activity between 37 and 60°C, and low activity at 85°C. Comparative analysis between the proteolytic enzymes expressed by larvae and pupae showed that substantial changes in the expression of active trypsin‐like serine proteases occur during the developmental cycle of A. aegypti. © 2011 Wiley Periodicals, Inc.     

Characterization of serine proteases of Lumbriculus variegatus and their role in regeneration

Serine proteases, ubiquitous enzymes known to function in digestion and immune protection in both vertebrates and invertebrates and implicated in regeneration in some species, were investigated in the California blackworm, Lumbriculus variegatus. Several serine proteases, rather than a single enzyme with broad specificity, were present in tissue extracts from the worms. Extracts were treated with a fluorescein‐labeled peptide chloromethyl ketone that specifically binds to trypsin/thrombin‐like proteases. Denaturing gel electrophoresis of labeled extracts showed several serine proteases with their molecular weight ranging 28,000–38,000 daltons. The trypsin/thrombin‐like activity was localized, using the fluorescein‐conjugated reagent, to the pharynx and digestive tract of L. variegatus. Movement of cells labeled by the reagent into regenerating tissues suggests that some differentiated endodermal tissues were used for reformation of digestive structures during regeneration in L. variegatus. The types of serine proteases in the extracts were further characterized by inhibitor studies. Presence of plasmin‐like activity was indicated by degradation of fibrin by tissue homogenates from the worms and the inhibitory effect of aprotinin on enzymes in these extracts. The ability of L. variegatus extracts to generate clots when incubated with rabbit plasma and partial inhibition of extract activity by phenylmethylsulfonyl fluoride and hirudin indicated presence of thrombin‐like activity. Consistent with the detection of trypsin, chymotrypsin, and plasmin‐like enzymes in the extracts was partial inhibition of L. variegatus serine protease activity by aminoethyl benzenesulfonyl fluoride and soybean trypsin inhibitor. Selective inhibition of chymotrypsin‐like activity by N‐tosyl‐l ‐phenylalanine chloromethyl ketone and chymostatin as well as trypsin‐like activity by N‐tosyl‐l ‐lysine chloromethyl ketone was observed. A potential role during regeneration for serine proteases is suggested by blockage of formation of head and tail structures by aminoethyl benzenesulfonyl fluoride, an inhibitor of these proteases.     

Ovostatin,an endogenous trypsin inhibitor of sea urchin eggs: Purification and characterization of ovostatin from eggs of the sea urchin,Strongylocentrotus intermedius

A trypsin inhibitor, termed ovostatin, has been purified approximately 265-fold with 82% yield, from unfertilized eggs of the sea urchin Strongylocentrotus intermedius, using trypsin coupled Sepharose 4B as an affinity column for chromatography. The isolated ovostatin is homogeneous in sodium dodecyl sulfate/polyacrylamide gel electrophoresis, the estimated molecular weight being 20K–21.5K. Ovostatin inhibits preferentially trypsin-like endogenous protease purified from the eggs of the same species and bovine pancreatic trypsin and also bovine pancreatic chymotrypsin. Values of IC₅₀ (amount causing 50% inhibition of enzymes) for trypsin-like protease purified from eggs of the same species, bovine pancreatic trypsin, and bovine pancreatic chymotrypsin, are 0.91 ± 0.13 μg/ml (4.55 ± 0.65 × 10^?8 M), 3.0 ± 0.28 μg/ml (1.5 ± 0.14 × 10^?7 M), and 4.8 ± 0.2 μg/ml (2.4 ± 0.1 × 10^?7 M), respectively, in the experimental condition used. Kinetic studies indicate that ovostatin is a noncompetitive inhibitor of trypsin. The inhibitor is relatively heat labile. NaCl (0.025–0.01 M) enhances the inhibitor activity, whereas KCl is inhibitory. Ovostatin requires a low concentration of Ca²⁺ for activity. The activity is higher in unfertilized eggs than in fertilized eggs; total activity and specific activity in unfertilized eggs is about 1.67-fold and 1.85-fold higher than those in fertilized eggs, respectively. We believe that ovostatin may regulate the function of the cortical granule protease and other trypsin-like proteases that are activated in sea urchin eggs during fertilization.     

IDENTIFICATION AND PARTIAL CHARACTERIZATION OF PROTEASES IN LARVAL PREPARATIONS OF THE CEREAL LEAF BEETLE (Oulema melanopus,CHRYSOMELIDAE, COLEOPTERA)

We determined some biochemical properties of Oulema melanopus larval gut proteases. We found adult midgut enzyme preparations yielded results similar to whole‐larval preparations, permitting studies of the very small whole‐larval preparations. Protein preparations were analyzed using FITC–casein as a substrate. Acidic pH is optimal for proteolytic activity (range 3.0–4.0). Cysteine protease activity increased at acidic pH and in the presence of β‐mercaptoethanol. Protease activities at all pH values were maximal at 45°C. Enzyme activity in larval preparations was inhibited by addition of Fe²⁺, Ca²⁺, Mg²⁺, Zn²⁺, and K⁺ (10 mM). Fe²⁺ and Zn²⁺ significantly decreased enzyme activity at all pH values, Ca²⁺ and Mg²⁺ at pH 6.2 and Mg²⁺ at pH 4.0. Inhibitors, including pepstatin A, showed the greatest inhibition at pH 4.0; phenylmethylsulfonyl fluoride, N‐p‐tosyl‐l‐phenylalanine chloromethyl ketone at pH 6.2; and phenylmethylsulfonyl fluoride, N_α‐tosyl‐l‐lysine chloromethyl ketone hydrochloride, N‐p‐tosyl‐l‐phenylalanine chloromethyl ketone, trans‐epoxysuccinyl‐l‐leucylamido‐(4‐guanidino) butane at pH of 7.6. Inhibition assays indicated that cysteine, aspartyl (cathepsin D), serine (trypsin, chymotrypsin‐like) proteases and metalloproteases act in cereal leaf beetle digestion.     

Characterisation of digestive protease in the rose sawfly,Arge rosae Linnaeus (Hymenoptera: Argidae)

Insect midgut proteases are excellent targets for insecticidal agents such as protease inhibitors. These inhibitors are used for producing transgenic plants, resistant to pests. For achieving this goal, it is necessary to find the nature of specific proteases and their properties for adopting possible pest management procedure. Therefore, characterisation of the enzymes in the gut of the rose sawfly, Arge rosae (Hymenoptera: Argidae), responsible for proteolysis, was performed using a range of synthetic substrates and specific inhibitors. The optimum conditions for general proteases and trypsin were achieved at pH 10. The highest activity for general proteases was obtained at a temperature of 45°C. The use of specific inhibitors and SDS-PAGE (sodium dodecyl sulfate polyacrylamide gel electrophoresis) provided evidence to suggest that most of the proteases belonged to the serine group because of high inhibitory effect of phenyl methane sulfonyl fluoride on total proteolytic activity. Also, inhibition assays and zymogram analysis showed that metalloproteases are present in A. rosae digestive system. These results indicated that A. rosae larvae mainly used serine proteases for protein digestion, with chymotrypsin as the dominant form. The kinetic parameters of trypsin-like proteases using N-benzoyl-dl-arg-p-nitroanilide as substrate indicated that the K _m and V _max values of trypsin in the gut of the fifth instar larvae were 730 ± 17.3 μM and 456 ± 13.85 nmol min^?1 mg^?1 protein, respectively.     

Purification and Characterization of a New Serine Protease (VLCII) Isolated from Vipera lebetina Venom: Its Role in Hemostasis

Snake venom serine proteinases (SVSPs) affect various physiological functions including blood coagulation, fibrinolysis, and platelet aggregation. Coagulant serine proteinase (VLCII) was purified from Vipera lebetina venom using three chromatographic steps: gel filtration on SephadexG‐75, DEAE‐Sephadex A‐50, and reversed‐phase high‐performance liquid chromatography (RP‐HPLC) on C8 column. VLCII appeared homogenous (60 kDa) when tested on sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS‐PAGE). VLCII as a thrombin‐like enzyme was able to hydrolyze Nα‐CBZ L‐arginine‐p‐nitroanilide hydrochloride and could be a serine protease because it is inhibited by phenylmethylsulfonyl fluoride. The proteolytic activity of VLCII was not affected by ethylenediaminetetraacetic acid and 1.10‐phenanthroline. It showed high coagulant activity against human plasma and cleaved both Aα chain and Bβ chain of bovine fibrinogen. The isolated VLCII displayed proaggregating effect on human platelet in a concentration‐dependent manner with an absence of lag time. Clopidogrel P2Y12 adenosine diphosphate (ADP) receptor inhibitor reduced markedly the aggregating effect induced by VLCII than aspirin, indicating the involvement of ADP signaling pathway.     

Potential Anticoagulant Activity of Trypsin Inhibitor Purified from an Isolated Marine Bacterium <Emphasis Type="Italic">Oceanimonas</Emphasis> Sp. BPMS22 and its Kinetics

Protease inhibitors control major biological protease activities to maintain physiological homeostasis. Marine bacteria isolated from oligotrophic conditions could be taxonomically distinct, metabolically unique, and offers a wide variety of biochemicals. In the present investigation, marine sediments were screened for the potential bacteria that can produce trypsin inhibitors. A moderate halotolerant novel marine bacterial strain of Oceanimonas sp. BPMS22 was isolated, identified, and characterized. The effect of various process parameters like salt concentration, temperature, and pH was studied on the growth of the bacteria and production of trypsin inhibitor. Further, the trypsin inhibitor was purified to near homogeneity using anion exchange, size exclusion, and affinity chromatography. The purified trypsin inhibitor was found to competitively inhibit trypsin activity with an inhibition coefficient, K_i, of 3.44?±?0.13 μM and second-order association rate constant, k_ass, of 1.08?×?10³ M^?1 S^?1. The proteinaceous trypsin inhibitor had a molecular weight of approximately 30 kDa. The purified trypsin inhibitor showed anticoagulant activity on the human blood samples.     

Ligula intestinalis (Cestoda: Pseudophyllidae): Studies on the properties of proteolytic and protease inhibitor activities of plerocercoid larvae

The somatic extract of L. intestinalis plerocercoids reveals hydrolytic activity against N-Benzoyl-l-tyrosine ethyl ester (BTEE) and Azocoll, and inactivates the esterolysis by mammalian trypsin and chymotripsin. The proteolytic enzyme activity and the inhibitory effect were completely separated by Sephadex G-100 column chromatography. Gel chromatography of the somatic extract revealed two peaks of proteolytic activity : one is bound to macromolecular substances, the other appears to be in free form and has a molecular weight of approx 60,000–65,000. The proteolytic activity showed the following characteristics : Tris-HCl buffer provided the highest activity against BTEE, the pH optimum was 7·4–7·8; the enzyme was activated by 10^?5m-Ca²⁺, Mg²⁺ or Mn²⁺, it was inhibited by 10^?5m-Cu²⁺, but not by 10^?5m-Zn²⁺. 0.001% soybean trypsin inhibitor, 2 × 10^?3m-EDTA, 1 mm-tosyl-l-phenylalanyl chloromethane, 1000 KIU/ml Trasylol did not inhibit the proteolytic activity, but it was inhibited by 1 mm-phenylmethyl-sulphonyl fluoride. The enzyme activity completely ceased upon 5 % TCA treatment or incubation at 56°C for 30 min. The trypsin and chyrnotrypsin inhibitor activities were eluted from the Sephadex G-100 column in a single peak with an estimated molecular weight of 6700–7200. The inhibitory effect was not sensitive to pH changes, and treatment by 5% TCA or incubation at 80°C for 15 min was ineffective. The proteolytic activity of plerocercoid extract was not effected ‘in vitro’ by the inhibitors isolated from this parasite.     

Alkaline serine proteases from Helicoverpa armigera: potential candidates for industrial applications

We characterized trypsin‐ and chymotrypsin‐like serine alkaline proteases from cotton bollworm, Helicoverpa armigera, for their probable potential application as additives in various bio‐formulations. Purification was achieved by using hydroxylapatite, DEAE sephadex and CM sephadex columns, which resulted in increased enzyme activity by 13.76‐ and 14.05‐fold for trypsin and chymotrypsin, respectively. Michaelis–Menten constants (K_m) for substrates of trypsin and chymotrypsin, BApNA and SAAPFpNA, were found to be 1.25 and 0.085 mM, correspondingly. Fluorescent zymogram analysis indicated the presence of five trypsin bands with molecular masses of ～21, 25, 38, 40, and 66 kDa and two chymotrypsin bands with molecular masses of ～29 and 34 kDa in SDS‐PAGE. The optimum pH was 10.0 and optimum temperature was 50°C for proteolytic activity for the purified proteases. The proteases were inhibited by synthetic inhibitors such as PMSF, aprotonin, leupeptin, pefabloc, and antipain. TLCK and TPCK inhibited about 94 and 90% of trypsin and chymotrypsin activity, respectively, while EDTA, EGTA, E64, pepstatin, idoacetamide, and bestatin did not affect the enzymes. The purified enzymes exhibited high stability and compatibility with metal ions; oxidizing, reducing, and bleaching agents; organic solvents; and commercial detergents. Short life cycles, voracious feeding behavior, and production of multiple forms of proteases in the midgut with rapid catalytic activity and chemostability can serve H. armigera as an excellent alternative source of industrially important proteases for use as additives in stain removers, detergents, and other bio‐formulations. Identification of enzymes with essential industrial properties from insect species could be a bioresource.     

Crystal structure of a supercharged variant of the human enteropeptidase light chain

The highly specific serine protease human enteropeptidase light chain cleaves the Asp4Lys recognition sequence and represents an interesting enzyme for biotechnological applications. The human enzyme shows 10 times faster kinetics compared to other animal sources but low solubility under low salt conditions, which hampers protein production and crystallization. Therefore, a supercharged variant (N6D/G21D/G22D/N142D/K210E/C112S) with increased solubility was used for crystallization. The structure (resolution, 1.9 Å) displays a typical α/β trypsin‐like serine protease‐fold. The mutations introduced for protein supercharging generate larger clusters of negative potential on both sites of the active cleft but do not affect the structural integrity of the protein. Proteins 2012. © 2012 Wiley Periodicals, Inc.     

Production of Serine Proteases by the Oyster Pathogen Perkinsus marinus (Apicomplexa) In Vitro

ABSTRACT. Analysis of the cell-free supernatants of Perkinsus marinus cultures by sodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and silver staining revealed the presence of as many as 17 bands ranging in molecular weight from 239 to 32 kDa. These bands were not present in un-inoculated medium. Moreover, P. marinus produces extracellular proteins that possess proteolytic activities; the cell-free supernatants of P. marinus cultures could digest a variety of proteins including gelatin, casein, fibronectin and laminin. Oyster plasma was also digested by cell-free culture supernatants. The proteolytic activity in cell-free culture supernatants was detected 24 h post-inoculation, while no proteolytic activity could be detected in cell lysates. The proteolytic activities were characterized using substrate-impregnated sodium dodecylsulfate-polyacrylamide gels and had approximate molecular weights ranging from 55 to 35 kDa. The proteolytic activity of cell-free culture supernatants was inhibited by the serine protease inhibitors phenylmethylsulphonyl fluoride, 3,4-dichloroisocoumarin and soybean trypsin inhibitor. In contrast, inhibitors (i.e. trans-epoxysuccinyll-leucylamido(4-guanidino)-butane, 1, 10-phenanthroline, captopril, ethylenediaminetetracetic acid, pepstatin A or diazoacetyl-DL-norleucine methyl ester) from the other three classes of proteases had no effect. It was concluded that the P. marinus proteases in cell-free culture supernatants are serine proteases.     

Photeolytic activation of a lipolytic enzyme activity in potato leaves

Potato (Solanum tuberosum L.) leaves were shown to contain a lipolytic enzyme activity which is stimulated by treatment with purified trypsin, pronase, and to a lesser degree by chymotrypsin. This protease-stimulated activity was stable over a wide range of pH values. Lipolytic enzyme activity also appeared to be regulated by pH, with a pronounced stimulation at pH 6.0 ± 0.5 and a subsequent inactivation at pH 8.0–9.0. This pH stimulation was slightly by ethylene diamine tetracetic acid (EDTA), and was inhibited by Ca²⁺. Although leupeptin slightly inhibited the pH stimulation, two other protease inhibitors, phenylmethylsulfonyl fluoride (PMSF) and soybean trypsin inhibitor showed no effect. While some of the lipolytic enzyme activitiesn potato leaves (those detected by 1-acyl-2-[6-[(7-nitro-2,1,3 benzoxadiazol-4-yl) amino]-caproyl] phosphatidylcholine (C₆-NBD-PC) hydrolysis) are stimulated by protease or pH treatment, others (those detected by 4-methylumbelliferyl laurate (4MUL) hydrolysis) are inactivated by them. The possible physiological significance of this apparent proteolytic activation is discussed.     

Study of the interaction of trypsin inhibitor from the sea anemone Radianthus macrodactylus with proteases

The interaction of the inhibitor VJ (InhVJ), isolated from sea anemone R. macrodactylus, with different proteases was investigated using the method of biosensor analysis. The following enzymes were tested: serine proteases (trypsin, α-chymotrypsin, plasmin, thrombin, kallikrein), cysteina protease (papain) and aspartic protease (pepsin). In the rage of the concentrations studied (10–400 nM) inhibitor VJ interacted only with trypsin and α-chymotrypsin. The intermolecular complexes formation between inhibitor VJ and each of these enzymes was characterized by the following kinetic and thermodynamics parameters: K_D = 7.38 × 10^?8 M and 9.93 × 10^?7 M for pairs InhVJ/trypsin and InhVJ/α-chymotrypsin, respectively.     

Serine protease activity in developmental stages of Eimeria tenella

A number of complex processes are involved in Eimeria spp. survival, including control of sporulation, intracellular invasion, evasion of host immune responses, successful reproduction, and nutrition. Proteases have been implicated in many of these processes, but the occurrence and functions of serine proteases have not been characterized. Bioinformatic analysis suggests that the Eimeria tenella genome contains several serine proteases that lack homology to trypsin. Using RT-PCR, a gene encoding a subtilisin-like and a rhomboid protease-like serine protease was shown to be developmentally regulated, both being poorly expressed in sporozoites (SZ) and merozoites (MZ). Casein substrate gel electrophoresis of oocyst extracts during sporulation demonstrated bands of proteolytic activity with relative molecular weights (Mr) of 18, 25, and 45 kDa that were eliminated by coincubation with serine protease inhibitors. A protease with Mr of 25 kDa was purified from extracts of unsporulated oocysts by a combination of affinity and anion exchange chromatography. Extracts of SZ contained only a single band of inhibitor-sensitive proteolytic activity at 25 kDa, while the pattern of proteases from extracts of MZ was similar to that of oocysts except for the occurrence of a 90 kDa protease, resistant to protease inhibitors. Excretory-secretory products (ESP) from MZ contained AEBSF (4-[2-Aminoethyl] benzenesulphonyl fluoride)-sensitive protease activity with a specific activity about 10 times greater than that observed in MZ extracts. No protease activity was observed in the ESP from SZ. Pretreatment of SZ with AEBSF significantly reduced SZ invasion and the release of the microneme protein, MIC2. The current results suggest that serine proteases are present in all the developmental stages examined.     

Characterization of the Mamestra configurata (Lepidoptera: Noctuidae) larval midgut protease complement and adaptation to feeding on artificial diet,Brassica species,and protease inhibitor

The midgut protease profiles from 5th instar Mamestra configurata larvae fed various diets (standard artificial diet, low protein diet, low protein diet with soybean trypsin inhibitor [SBTI], or Brassica napus) were characterized by one‐dimensional enzymography in gelatin gels. The gut protease profile of larvae fed B. napus possessed protease activities of molecular masses of approximately 33 and 55 kDa, which were not present in the guts of larvae fed artificial diet. Similarly, larvae fed artificial diet had protease activities of molecular masses of approximately 21, 30, and 100 kDa that were absent in larvae fed B. napus. Protease profiles changed within 12 to 24 h after switching larvae from artificial diet to plant diet and vice versa. The gut protease profiles from larvae fed various other brassicaceous species and lines having different secondary metabolite profiles did not differ despite significant differences in larval growth rates on the different host plants. Genes encoding putative digestive proteolytic enzymes, including four carboxypeptidases, five aminopeptidases, and 48 serine proteases, were identified in cDNA libraries from 4th instar M. configurata midgut tissue. Many of the protease‐encoding genes were expressed at similar levels on all diets; however, three chymoptrypsin‐like genes (McSP23, McSP27, and McSP37) were expressed at much higher levels on standard artificial diet and diet containing SBTI as was the trypsin‐like gene McSP34. The expression of the trypsin‐like gene McSP50 was highest on B. napus. The adaptation of M. configurata digestive biochemistry to different diets is discussed in the context of the flexibility of polyphagous insects to changing diet sources. Published 2010 Wiley Periodicals, Inc.     

Partial characterization of trypsin-like protease and molecular cloning of a trypsin-like precursor cDNA in salivary glands of Lygus lineolaris

Based on substrate specificity, an alkaline pH optimum, sensitivity to selected proteinase inhibitors, and molecular analysis, we provide evidence for the presence of a trypsin-like serine proteinase in the salivary gland complex (SGC) of the tarnished plant bug, Lygus lineolaris (Palisot de Beauvois) (Heteroptera: Miridae). The predominant activity in extracts of the SGC against N(2)-benzoyl-L-arginine-p-nitroanilide (L-BApNA) was at pH 10, but a minor peak of activity also occurred at pH 5. The major BApNAase activity focused at 10.4 during preparative isoelectric focusing and was eluted with an apparent molecular weight of 23,000 from a calibrated gel filtration column. The BApNAase fraction gave a single major band when analyzed on a casein zymogram. The activity was completely suppressed by the serine protease inhibitors, phenylmethylsulfonyl fluoride (PMSF) and lima bean trypsin inhibitor. A cDNA coding for a trypsin-like protein in the salivary glands of L. lineolaris was cloned and sequenced. The 971bp cDNA contained an 873-nucleotide open reading frame encoding a 291-amino acid trypsin precursor. The encoded protein included amino acid sequence motifs that are conserved with four homologous serine proteases from other insects. Typical features of the putative trypsin-like protein from L. lineolaris included the serine protease active site (His(89), Asp(139), Ser(229)), conserved cysteine residues for disulfide bridges, the residues (Asp(223), Gly(252), Gly(262)) that determine trypsin specificity, and both zymogen signal and activation peptides. Cloning and sequencing of a trypsin-like precursor cDNA provided additional direct evidence for trypsin like enzymes in the salivary glands of L. lineolaris.     

Identification of a myofibril-bound serine protease and its endogenous inhibitor in mouse skeletal muscle

Myofibrillar proteins, like all other intracellular proteins, are in a dynamic state of continual degradation and resynthesis. The proteolytic system responsible for degrading myofibrillar proteins in skeletal muscle is not well defined. A proteolytic activity associated to myofibrils was found in mouse skeletal muscle, as show electrophoretic patterns, and denominated by us, as protease M. During incubation of whole myofibrils at 37 degrees C, myosin heavy chain, alpha actinin, actin and troponin T suffered degradation. These effects were inhibited selectively by serine protease inhibitors (soybean trypsin inhibitor, di-isopropyl phosphofluoridate, phenylmethanesulfonyl fluoride). Using myofibrils as protease M source, azocaseinolytic activity was also detected. Endogenous inhibitor and various compounds effects on protease M activity were also quantified by trichloroacetic acid soluble products formation, using radiolabeled myofibrils. An endogenous trypsin inhibitor isolated from the muscle cytoplasmic fraction could inhibit protease M activity on myofibrillar proteins and on azocasein. While K(+) increased protease M activity, the presence of Ca(2+) did not show any effect. Data presented in this study suggest that reported protease M may be implicated in myofibrillar degradation in vivo and isolated endogenous inhibitor may provide a mechanism to control its action in mouse skeletal muscle.     

Optimization of peptidyl allyl sulfones as clan CA cysteine protease inhibitors

This research investigates the synthesis and inhibitory potency of a series of novel dipeptidyl allyl sulfones as clan CA cysteine protease inhibitors. The structure of the inhibitors consists of a R₁-Phe-R₂-AS-Ph scaffold (AS?=?allyl sulfone). R₁ was varied with benzyloxycarbonyl, morpholinocarbonyl, or N-methylpiperazinocarbonyl substituents. R₂ was varied with either Phe of Hfe residues. Synthesis involved preparation of vinyl sulfone analogues followed by isomerization to allyl sulfones using n-butyl lithium and t-butyl hydroperoxide. Sterics, temperature and base strength were all factors that affected the formation and stereochemistry of the allyl sulfone moiety. The inhibitors were assayed with three clan CA cysteine proteases (cruzain, cathepsin B and calpain I) as well as one serine protease (trypsin). The most potent inhibitor, (E)-Mu-Phe-Hfe-AS-Ph, displayed at least 10-fold selectivity for cruzain over clan CA cysteine proteases cathepsin B and calpain I with a k_obs/[I] of 6080?±?1390?M^?1s^?1.