Peptides based on the reactive center loop of Manduca sexta serpin-3 block its protease inhibitory function.

One innate immune response in insects is the proteolytic activation of hemolymph prophenoloxidase (proPO), regulated by protease inhibitors called serpins. In the inhibition reaction of serpins, a protease cleaves a peptide bond in a solvent-exposed reactive center loop (RCL) of the serpin, and the serpin undergoes a conformational change, incorporating the amino-terminal segment of the RCL into serpin ß-sheet A as a new strand. This results in an irreversible inhibitory complex of the serpin with the protease. We synthesized four peptides with sequences from the hinge region in the RCL of Manduca sexta serpin-3 and found they were able to block serpin-3 inhibitory activity, resulting in suppression of inhibitory protease-serpin complex formation. An RCL-derived peptide with the sequence Ser-Val-Ala-Phe-Ser (SVAFS) displayed robust blocking activity against serpin-3. Addition of acetyl-SVAFS-amide to hemolymph led to unregulated proPO activation. Serpin-3 associated with Ac-SVAFS-COO- had an altered circular dichroism spectrum and enhanced thermal resistance to change in secondary structure, indicating that these two molecules formed a binary complex, most likely by insertion of the peptide into ß-sheet A. The interference of RCL-derived peptides with serpin activity may lead to new possibilities of "silencing" arthropod serpins with unknown functions for investigation of their physiological roles.

Lyn and Syk kinases are sequentially engaged in phagocytosis mediated by Fc gamma R.

Recent data indicate that phagocytosis mediated by FcgammaRs is controlled by the Src and Syk families of protein tyrosine kinases. In this study, we demonstrate a sequential involvement of Lyn and Syk in the phagocytosis of IgG-coated particles. The particles isolated at the stage of their binding to FcgammaRs (4 degrees C) were accompanied by high amounts of Lyn, in addition to the signaling gamma-chain of FcgammaRs. Simultaneously, the particle binding induced rapid tyrosine phosphorylation of numerous proteins. During synchronized internalization of the particles induced by shifting the cell to 37 degrees C, Syk kinase and Src homology 2-containing tyrosine phosphatase-1 (SHP-1) were associated with the formed phagosomes. At this step, most of the proteins were dephosphorylated, although some underwent further tyrosine phosphorylation. Quantitative immunoelectron microscopy studies confirmed that Lyn accumulated under the plasma membrane beneath the bound particles. High amounts of the gamma-chain and tyrosine-phosphorylated proteins were also observed under the bound particles. When the particles were internalized, the gamma-chain was still detected in the region of the phagosomes, while amounts of Lyn were markedly reduced. In contrast, the vicinity of the phagosomes was heavily decorated with anti-Syk and anti-SHP-1 Abs. The local level of protein tyrosine phosphorylation was reduced. The data indicate that the accumulation of Lyn during the binding of IgG-coated particles to FcgammaRs correlated with strong tyrosine phosphorylation of numerous proteins, suggesting an initiating role for Lyn in protein phosphorylation at the onset of the phagocytosis. Syk kinase and SHP-1 phosphatase are mainly engaged at the stage of particle internalization.

In vivo response of neutrophils and epithelial cells to lipopolysaccharide injected into the monkey ileum.

Since few previous studies have investigated the in vivo response of intestinal mucosa to the luminally administered lipopolysaccharide (LPS), we examined the cellular localization of exogenously applied LPS in the intestinal mucosa and the expression of Toll-like receptor (TLR) and IL-1 receptor-associated kinase (IRAK) in the epithelial cells of monkey ileum. FITC-labeled LPS was injected into the lumen of monkey ileum. Thirty minutes after the LPS injection, the ileal tissue was fixed and localization of FITC fluorescence in the ileal mucosa was examined. We applied Factor C immunohistochemistry to demonstrate the bioactivity of LPS taken up by the mucosal tissue. The expression of TLR4 and IRAK-1 in the epithelial cells was also examined by immunohistochemistry. FITC fluorescence was detected in the cells migrated into the epithelium and those in the lamina propria. The FITC-labeling cells were completely overlapped with the Factor C immunoreactive cells. These FITC-labeling/Factor C-positive cells were identified as neutrophils by the immunoelectron microscopic analysis. TLR4 and IRAK-1 were expressed at the apical membrane of the epithelial cells in the ileum of both control and FITC-LPS injected animals. These results suggest that intraluminal injection of LPS stimulates the transmigration of neutrophils into the epithelium and these neutrophils may uptake luminally applied LPS and possibly inactivate the enterotoxin. Expression of TLR4 and IRAK-1 in the epithelial cells suggests that epithelial cells may react to LPS and produce chemoattractant mediator to induce the neutrophil chemotaxis.

Protein engineering as a strategy to avoid formation of amyloid fibrils.

The activation domain of human procarboxypeptidase A2 (ADA2h) aggregates following thermal or chemical denaturation at acidic pH. The aggregated material contains well-defined ordered structures with all the characteristics of the fibrils associated with amyloidotic diseases. Variants of ADA2h containing a series of mutations designed to increase the local stability of each of the two helical regions of the protein have been found to have a substantially reduced propensity to form fibrils. This arises from a reduced tendency of the denatured species to aggregate rather than from a change in the overall stability of the native state. The reduction in aggregation propensity may result from an increase in the stability of local relative to longer range interactions within the polypeptide chain. These findings show that the intrinsic ability of a protein to form amyloid can be altered substantially by protein engineering methods without perturbing significantly its overall stability or activity. This suggests new strategies for combating diseases associated with the formation of aggregated proteins and for the design of novel protein or peptide therapeutics.

Exocytosis and movement of zymogen granules observed by VEC-DIC microscopy in the pancreatic tissue en bloc.

The dynamic aspects of exocytosis, especially in the normal acinar tissue en bloc, have remained unclear. We visualized exocytosis directly in the tissue of the exocrine pancreas of rodents by video-enhanced contrast-differential interference contrast (VEC-DIC) microscopy to investigate various exocytosis-related rates and the relationship between the movement of granules and exocytotic responses. Stimulation of the tissue with bethanechol or cholecystokinin caused many of the zymogen granules in the apical pole to disappear abruptly. The exocytotic transients of individual granules were completed in 0.48-0.65 s. Granules destined to participate in the exocytotic response moved randomly at velocities of approximately 0.06 microm/s or less during stimulation. In the tissue preparation, granules located far from the apical pole frequently moved back and forth for 1-7 microm without showing exocytosis. Colchicine suppressed this movement and the late phase of the secretory response. Real-time (VEC-DIC) observation of granule dynamics revealed that the initial step of exocytosis was not coupled directly with the microtubule-dependent translocation but with a continuous, slow Brownian fluctuation of granules.

Acinar cell carcinoma of the pancreas showing finger-print-like zymogen granules by electron microscopy: immunohistochemical study.

A rare case of finger-print-like zymogen granules shown by electron microscopy is reported. The patient was a 75-year-old man who was histologically and ultrastructurally confirmed to have acinar cell carcinoma of the pancreas. Frozen section and postmortem examination revealed that the tumor was made up of solid nests of cells resembling the appearance of normal pancreatic acini, showing polygonal cells which had round or oval nuclei, and rare mitotic figures. Zymogen-like granules, shown by eosinophilic granular staining, were abundant in the cytoplasm. Electron microscopy showed that the tumor cells were closely packed, occasionally forming small intercellular spaces resembling pancreatic acini (microtubules). The cytoplasm contained characteristic zymogen granules with dark-to-medium electron density, measuring 660 nm +/-213 SD in diameter. The granules of medium density were large, and showed finger-print-like patterns. Investigation of more cases is necessary to identify whether these finger-print-like patterns are an important factor in the genesis of acinar cell carcinoma.

Complex formation among rat pancreatic secretory proteins under mild alkaline pH conditions.

Previous in vitro studies have demonstrated that enzyme proteins liberated from isolated zymogen granules of the rat pancreas aggregate already at neutral or slightly basic pH and form small particles which in the acidic pH range progressively condense into dense cores of about the size of zymogen granules. To characterize the protein composition of the original particles in more detail non-denaturing agarose gel electrophoresis was employed. Five major protein complexes were identified which upon separation of individual complexes in 1-D or 2-D gel electrophoresis were shown to be composed of a distinct set of known enzymes and several unknown proteins. Complexes 1-4 quickly dissociated when enzyme activation was induced by enterokinase, but complex 5 was resistant even to this treatment. All 5 complexes revealed a distinct fine structure when eluted from the gels and studied in negative staining electron microscopy. These findings suggest that pancreatic zymogens form complexes already in the lumen of the rough endoplasmic reticulum and are transported as such to the Golgi complex where they aggregate into granule cores due to the internal acidic pH. Complex formation may thus facilitate zymogen sorting within the rough endoplasmic reticulum and may prevent premature enzyme activation within cellular compartments.

Expression and localization of synaptotagmin I in rat parotid gland.

Synaptotagmins are a gene family of membrane proteins with distinct expression patterns. Synaptotagmin I is an abundant protein of the synaptic vesicle membrane and was implicated as the Ca2+ sensor in fast responding synapses. Yet, its precise role along the synaptic vesicle life cycle is not fully understood. In this report we show that synaptotagmin I is not exclusively confined to neuronal and neuroendocrine systems, rather, it is also expressed in the exocrine system of the parotid gland. The gene for synaptotagmin I was isolated and sequenced from rat parotid cDNA. The identity of synaptotagmin I protein was further confirmed by several independent antibodies. The protein is exclusively found in the membranous fraction of purified granules, similarly to VAMP-2, another major integral membrane protein of synaptic vesicles. Synaptotagmin I represents 0.4% of the total membrane protein mass of the granule. Using immunoelectron microscopy the two proteins were also localized primarily to the granules' membranes. These findings suggest that synaptotagmin I which regulates Ca(2+)-dependent neurotransmitter release also plays a role which is common to all secretory organelles-neuronal, endocrine and exocrine. A role for synaptotagmin I in integrating signals with protein secretion in the parotid gland is suggested.

The time course of ultrastructural changes in the secretory components of pancreatic acinar cells and trypsinogen activation in taurocholate pancreatitis in rats.

The purpose of this study was to compare a time course of ultrastructural changes of secretory compartment of acinar cells in the pancreas, and a pattern of trypsinogen activation during the course of taurocholate acute pancreatitis (AP) in rats. Acute pancreatitis was induced in 21 rats by injection 0.2 ml of 5% natrium taurocholate into the biliopancreatic duct. Control rats (n = 18) were sham operated (SO). The ultrastructural and biochemical (trypsinogen activation, free active [FAT] and total potential trypsin [TPT]) examinations were performed after 6, 12 and 18 h of AP or SO. Ultrastructural lesions of acinar cells comprised of disorganization of RER, enlargement of Golgi apparatus, changes in size, shape and number of zymogen granules. These alterations were most conspicuous after 6 h of AP and they were associated with maximal activation of trypsinogen. Biochemical changes gradually normalized at 12 to 18 h of AP, however the morphological lesions persisted at these intervals of time.

Nucleoside phosphatase activities on pig pancreas zymogen granule membranes analyzed by non-denaturing polyacrylamide gel electrophoresis.

The membrane of the pancreatic zymogen granule plays an important part in the sequence of storage, transport and exocytosis of digestive enzymes. While much is known on stimulus-secretion coupling, very little is understood about how the storage organelles move in the cytoplasm to the luminal plasma membrane and why and how they fuse with it to release the contents. It is assumed that nucleoside phosphatases are involved in these energy consuming processes. Pancreatic zymogen granule membranes contain one major glycoprotein, GP-2, and a few minor proteins all with unknown functions. In order to identify functions we have purified zymogen granule membranes from pig pancreas, solubilized the proteins under non-denaturing conditions with the detergent CHAPS and characterized the extracted proteins by polyacrylamide gel electrophoresis, histochemistry and lectins. Three major protein bands, often fused in one broad band, revealed enzymatic activity for adenosine-, cytidine-, inositol- and guanidine- di- and triphosphates by the precipitation of liberated phosphate by Pb(NO3)2. This activity was sensitive to known ATP diphosphohydrolase inhibitors. The band with activity arises from a 92 kDa glycoprotein. A different narrow band showed monophosphatase activity for AMP, GMP, IMP and CMP. Some of the activities were inhibited by different lectins, indicating glycosyl groups near the active site. Electron microscopical cytochemistry confirmed a nucleoside phosphatase activity on granule membranes. Our results show for the first time that the nucleoside phosphatase activity of the zymogen granule membranes is carried by a 92 kDa glycoprotein, probably the known self-associating form of GP-2. The hydrolysis of tri- and diphosphate nucleotides could provide the energy required by exocytosis.

Crystallographic study of a cleaved, non-activatable form of porcine zymogen E.

The crystal structure of a cleaved form of porcine zymogen E has been solved by molecular replacement using the bovine procarboxypeptidase A-S6 subunit III structure as search model. Crystallographic refinement using simulated annealing and energy minimization techniques resulted in a final R-factor of 0.189 for all data between 8 and 2.3 A resolution. The zymogen E three-dimensional model is very close to that of bovine subunit III and represents the second member of the zymogen E family for which the crystal structure is known. The two structures indicate that, in contrast to trypsinogen and chymotrypsinogen, zymogens of this family are highly organized molecules. The amino acid sequence of zymogen E has only been determined for the first 40 residues. Based on the electron density map, we have introduced six sequence changes relative to subunit III. Out of the 11 residues in the activation peptide, only the first six present well matching electron density; they are connected to the rest of the zymogen by an unexpected Cys1-Cys122 disulphide bridge (according to the bovine chymotrypsinogen A numbering system). Amino acid sequencing of protein solutions both from dissolved crystals and from the initial stock clearly indicated that the Val17-Asn18 bond had been cleaved during the crystallization process. This result adds weight to the assumption that the autolysis of the bovine zymogen E gives rise to subunit III and that this maybe a regulatory mechanism for protease E activity.

Folding pathway mediated by an intramolecular chaperone: characterization of the structural changes in pro-subtilisin E coincident with autoprocessing.

Mechanisms by which many N-terminal propeptides facilitate folding of proteins are unknown. The maturation of such proteins from their precursors involve three steps, namely: (1) folding of the precursor, (2) autoprocessing of the propeptide from the N terminus and (3) degradation of the cleaved propeptide. Using subtilisin E we have analyzed the mechanism of propeptide-mediated protein folding. Two active site mutations allow us to trap intermediates at stages of autoprocessing and degradation. An analysis of these intermediates has shown the existence of a molten-globule-like intermediate on the folding pathway. After autoprocessing of the propeptide, this intermediate undergoes a structural reorganization which reduces solvent-accessible hydrophobic surface area and increases the amount of its tertiary structure. Removal of the propeptide from the mature enzyme in this intermediate state occurs only by proteolytic degradation and contributes to the stability of the active enzyme.

[Papillary epithelial tumors of the pancreas]. / Papilliarnye épitelial'nye opukholi podzheludochnoi zhelezy.

4 cases of papillary epithelial tumors (PET) of the pancreas which were initially diagnosed erroneously are described in females aged 12, 14, 14 and 41 years. PET are circumscribed tumors up to 10 cm in diameter containing numerous cysts. Cyto- and histologically they are papillary-solid tumors with hyalinosis, myxomatosis, hemorrhage and necrosis. Zymogen type granules, ring-membranous inclusions were found electron microscopically. Some cells have a structure of oncocytes. Differential diagnostic features of PET are specified.

Crystallization and preliminary X-ray analysis of the ternary complex of procarboxypeptidase A from bovine pancreas.

The ternary complex of procarboxypeptidase A, chymotrypsinogen C and proproteinase E from bovine pancreas has been crystallized using the sitting drop vapour diffusion method. The success in obtaining crystals has been found to be critically dependent on the prevention of autolysis of the complex. In preliminary stages, crystals twinned by merohedry were obtained from a solution containing MgCl2 and polyethylenglycol 400 as precipitating agent. Later on, untwinned ones could be grown employing CaCl2 instead of MgCl2. These latter crystals belong to the rhombohedral system and to the spacegroup R3 with cell dimensions a = b = 188.5 A and c = 82.5 A. Consideration of the possible values of Vm accounts for the presence of one ternary complex molecule-oligomere per asymmetric unit. The crystals diffract beyond 2.6 A resolution and are suitable for X-ray analysis.

The protein content and morphogenesis of zymogen granules.

When zymogen granules, the secretion granules of pancreatic acinar cells, fill, secretory product is accumulated in immature granules, condensing vacuoles. Mature granules are formed when this product (protein) condenses into an osmotically inactive aggregate and, bulk water is expelled. This hypothesis for granule morphogenesis has two elements. The first is that immature granules are precursors to mature granules. The second is that a particular maturational event, condensation, which involves the aggregation of protein, takes place. These hypotheses lead to two straightforward predictions. One, that condensing vacuoles on average, should contain less protein than filled or mature granules. And two, that, due to condensation, mature granules should contain protein at a common concentration. In the current work, both of these predictions were tested using measurements of the protein content of individual granules acquired by X-ray microscopy. Neither prediction was affirmed by the experimental results. First, there was no distinguishable difference in the distribution of protein between immature and mature granules. Second, the protein concentration of mature granules varied widely between preparations, although granules from the same preparation had similar concentrations. From the data we conclude that: 1) mature granules and condensing vacuoles are different, though not necessarily unrelated, types of secretory vesicle, and not two forms of the same object; 2) as such, condensing vacuoles are not precursors to mature granules; 3) all granules do not contain protein at one particular concentration when "full," or mature; 4) granule maturation does not involve a condensation step; 5) concentration is not determined by such physical limits as the space available for protein packing or condensation; and 6) the amount of protein contained is physiologically regulated.

Preliminary crystallographic studies on human complement pro-factor D.

The recombinant zymogen of the human complement protein factor D has been crystallized. Crystals were grown by vapor diffusion using polyethylene glycol 6000 as precipitant. Two crystal forms obtained at pH 5.4 belong to space group P2(1). The crystals grow to dimensions of 0.6 mm x 0.3 mm x 0.3 mm in three days, are stable in the X-ray beam, and diffract to 2.4 A.

Cerulein-induced pancreatitis in the ex vivo isolated perfused canine pancreas.

Infusion of supramaximal doses of the cholecystokinin analog cerulein is well established as an in vivo technique for inducing experimental pancreatitis in small animals. An attempt was made to simulate this model and initiate pancreatitis in the ex vivo isolated perfused canine pancreas. Control preparations gained minimal weight (mean 8.3 +/- 5.1 gm), demonstrated no edema accumulation, and did not develop hyperamylasemia (mean 1342 +/- 790 units) after 4 hours of perfusion. Electron microscopy after 4 hours of perfusion remained normal. Intraarterial cerulein infusion produced significant weight gain (mean 27.6 +/- 12.3 gm; p less than 0.001), edema formation, and marked hyperamylasemia (mean 26,838 +/- 21,341 units; p less than 0.001) after 4 hours of perfusion. During the 4-hour perfusion, electron microscopy of cerulein preparations demonstrated depletion of zymogen granules, condensing vacuole formation, and basolateral exocytosis. Pretreatment of cerulein preparations with the free radical scavengers superoxide dismutase and catalase and the iron chelator deferoxamine did not modify the pancreatitis. Continuous infusion of the nonpeptide cholecystokinin antagonist L364,718 reduced cerulein-induced weight gain (4.3 +/- 3.4 gm; p less than 0.001) and hyperamylasemia (9392 +/- 6718 units; p less than 0.05). We conclude that cerulein pancreatitis in the ex vivo isolated perfused canine pancreatic preparation is identical physiologically, biochemically, and morphologically with that seen in intact animals.