Characterization of a Kunitz trypsin inhibitor with one disulfide bridge purified from Swartzia pickellii

Swartzia pickellii is a Leguminosae that belongs to the Caesalpinioideae sub-family the Swartzia pickellii Trypsin Inhibitor (SWTI), a serine proteinase inhibitor was isolated from its seeds. SWTI is a single polypeptide chain protein and it's structure has 174 amino acid residues, it homologous to other Kunitz plant inhibitors, however shows some major differences: it contains only one disulfide bridge, instead two which are usually found in plant Kunitz inhibitors, and the SWTI reactive site does not contain the usual Arg or Lys residues at the putative reactive site (position 65). A glycosylation site was detected at Asn38 with 1188 kDa carbohydrate portion. The primary structure micro heterogeneity was found combining the sequence determination and mass spectrometry. Three forms of SWTI were actually defined: two glycosylated forms a 20,204 kDa (Arg 165) and 20,185 kDa (His 165) and one deglycosylated form 19,016 kDa (Arg 165), all of them contain a Met residue at position 130.     

Structural basis of the zinc inhibition of human tissue kallikrein 5

Human kallikrein 5 (hK5) is a member of the tissue kallikrein family of serine peptidases. It has trypsin-like substrate specificity, is inhibited by metal ions, and is abundantly expressed in human skin, where it is believed to play a central role in desquamation. To further understand the interaction of hK5 with substrates and metal ions, active recombinant hK5 was crystallized in complex with the tripeptidyl aldehyde inhibitor leupeptin, and structures at 2.3 A resolution were obtained with and without Zn2+. While the overall structure and the specificity of S1 pocket for basic side-chains were similar to that of hK4, a closely related family member, both differed in their interaction with Zn2+. Unlike hK4, the 75-loop of hK5 is not structured to bind a Zn2+. Instead, Zn2+ binds adjacent to the active site, becoming coordinated by the imidazole rings of His99 and His96 not present in hK4. This zinc binding is accompanied by a large shift in the backbone conformation of the 99-loop and by large movements of both His side-chains. Modeling studies show that in the absence of bound leupeptin, Zn2+ is likely further coordinated by the imidazolyl side-chain of the catalytic His57 which can, similar to equivalent His57 imidazole groups in the related rat kallikrein proteinase tonin and in an engineered metal-binding rat trypsin, rotate out of its triad position to provide the third co-ordination site of the bound Zn2+, rendering Zn2+-bound hK5 inactive. In solution, this mode of binding likely occurs in the presence of free and substrate saturated hK5, as kinetic analyses of Zn2+ inhibition indicate a non-competitive mechanism. Supporting the His57 re-orientation, Zn2+ does not fully inhibit hK5 hydrolysis of tripeptidyl substrates containing a P2-His residue. The P2 and His57 imidazole groups would lie next to each other in the enzyme-substrate complex, indicating that incomplete inhibition is due to competition between both imidazole groups for Zn2+. The His96-99-57 triad is thus suggested to be responsible for the Zn2+-mediated inhibition of hK5 catalysis.     

Tissue kallikrein induces SH-SY5Y cell proliferation via epidermal growth factor receptor and extracellular signal-regulated kinase1/2 pathway

Tissue kallikrein (TK) is well known to take most of its biological functions through bradykinin receptors. In the present study, we found a novel signaling pathway mediated by TK through epidermal growth factor receptor (EGFR) in human SH-SY5Y cells. We discovered that TK facilitated the activation of EGFR, extracellular signal-regulated kinase (ERK) 1/2 and p38 cascade. Interestingly, not p38 but ERK1/2 phosphorylation was severely compromised in cells depleted of EGFR. Nevertheless, impairment of signaling of ERK1/2 seemed not to be restricted to EGFR phosphorylation. We also observed that TK stimulation could induce SH-SY5Y cell proliferation, which was reduced by EGFR down-regulation or ERK1/2 inhibitor. Overall, our findings provided convincing evidence that TK could mediate cell proliferation via EGFR and ERK1/2 pathway in vitro.     

人尿激肽原酶的纯化与鉴定

采用两性离子胶体沉淀和乙醇沉淀相结合的粗提方法,经离子交换、疏水层析、亲和层析及凝胶过滤4个步骤有效地将人尿激肽原酶（hk-1）粗提物纯化,比活提高了1 755倍,总得率为70%.用以慈菇蛋白酶抑制剂为配体的亲和层析纯化hk-1,效果理想,整个工艺路线适合产业化生产.纯化产物在SDS-聚丙烯酰胺凝胶电泳上为单带,高压液相色谱(HPLC)上为单峰,基质辅助激光解析电离飞行时间质谱测得分子质量为33 450 u,等电聚焦测得pI在4.3附近,为含糖蛋白.同时测定了该酶的热稳定性和pH稳定性.纯化过程中同时分离得到另一种药用蛋白——人尿胰蛋白酶抑制剂（HUTI）.     

The proteolytic enzymes as a highly sensitive criterion of effectiveness and safety of treatment

The effect of ozonated saline on proteolytic enzymes (trypsin, chymotrypsin, elastase, kallikrein, leucine aminopeptidase), inhibitors of proteolysis and lipid peroxidation (LPO) has been investigated. Injection of ozonated saline caused marked response of the proteolytic system. Low ozone doses did not cause activation of proteolytic enzymes, whereas high doses activated proteases, decreased the level of inhibitors of proteolysis (α₁-antitrypsin and α₂-macroglobulin) and stimulated accumulation of LPO products. Thus, analyses of proteolytic activity can be used as an indicator of effectiveness and safety of ozone therapy and other treatment programs.     

组织型激肽释放酶及相关肽酶在中枢神经系统中的作用

组织型激肽释放酶1(kallikrein1,KLK1)和激肽释放酶相关肽酶(kallikrein-related peptidase 2～15,KLK2～15)是一类丝氨酸蛋白酶,具有广泛的生物学活性。在中枢神经系统中,它们不但在脑的生长、发育和学习记忆等方面起重要作用,同时也在多种脑部疾病中起重要作用,如帕金森病、痴呆、多发性硬化、肿瘤等,并在这些疾病的诊断、治疗和预后方面显示出潜在的应用价值。     

Vaspin (serpinA12) in obesity,insulin resistance,and inflammation

While genome‐wide association studies as well as candidate gene studies have revealed a great deal of insight into the contribution of genetics to obesity development and susceptibility, advances in adipose tissue research have substantially changed the understanding of adipose tissue function. Its perception has changed from passive lipid storage tissue to active endocrine organ regulating and modulating whole‐body energy homeostasis and metabolism and inflammatory and immune responses by secreting a multitude of bioactive molecules, termed adipokines. The expression of human vaspin (serpinA12) is positively correlated to body mass index and insulin sensitivity and increases glucose tolerance in vivo, suggesting a compensatory role in response to diminished insulin signaling in obesity. Recently, considerable insight has been gained into vaspin structure, function, and specific target tissue‐dependent effects, and several lines of evidence suggest vaspin as a promising candidate for drug development for the treatment of obesity‐related insulin resistance and inflammation. These will be summarized in this review with a focus on molecular mechanisms and pathways. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Identification and characterisation of Kunitz-type plasma kallikrein inhibitors unique to Oxyuranus sp. snake venoms

As part of a wider study on Australian snake venom components, we have identified and characterised Kunitz-type protease inhibitors from the venoms of Oxyuranus scutellatus and Oxyuranus microlepidotus (Australian taipans) with plasma kallikrein inhibitory activity. Each inhibitor had a mass of 7 kDa and was purified from the venom as part of a protein complex. Mass spectrometry and N-terminal sequencing was employed to obtain amino acid sequence information for each inhibitor and a recombinant form of the O. scutellatus inhibitor, termed TSPI, was subsequently expressed and purified. TSPI was investigated for inhibition against a panel of 12 enzymes involved in haemostasis and estimates of the K_i value determined for each enzyme. TSPI was found to be a broad spectrum inhibitor with most potent inhibitory activity observed against plasma kallikrein that corresponded to a K_i of 0.057 ± 0.019 nM. TSPI also inhibited fibrinolysis in whole blood and prolonged the intrinsic clotting time. These inhibitors are also unique in that they appear to be found only in Oxyuranus sp. venoms.     

Plasma kallikrein is activated on dermatan sulfate and cleaves factor H

When human plasma is applied to a dermatan sulfate column, amidase activity is detected in the bound fraction and complement factor H is cleaved [A. Saito, H. Munakata, Factor H is a dermatan sulfate-binding protein: identification of a dermatan sulfate—mediated protease that cleaves factor H, J. Biochem. 137 (2005) 225-233]. Here, the amidase-active fraction was purified by sequential gel filtration and hydroxyapatite chromatography, and the amidase-active protein was identified to be plasma kallikrein by mass spectrometry. The activation of plasma kallikrein was further investigated by Western blotting using plasma deficient in prekallikrein or coagulation factor Xll. The dermatan sulfate column-bound fraction of the prekallikrein- and factor Xll-deficient plasmas did not show any amidase activity and factor H remained intact. Addition of kallikrein, but not activated factor Xll, to factor H purified from plasma resulted in cleavage of factor H. Thus, dermatan sulfate induces contact activation and activates kallikrein-mediated cleavage of FH.     

Substrate specificity of human kallikreins 1 and 6 determined by phage display

The human tissue kallikrein (KLK) family contains 15 secreted serine proteases that are expressed in a wide range of tissues and have been implicated in different physiological functions and disease states. Of these, KLK1 has been shown to be involved in the regulation of multiple physiological processes such as blood pressure, smooth muscle contraction, and vascular cell growth. KLK6 is overexpressed in breast and ovarian cancer tissues and has been shown to cleave peptide derived from human myelin protein and Abeta amyloid peptide in vitro. Here we analyzed the substrate specificity of KLK1 and KLK6, by substrate phage display using a random octapeptide library. Consistent with earlier biochemical data, KLK1 was shown to exhibit both trypsin- and chymotrypsin-like selectivities with Tyr/Arg preferred at site P1, Ser/Arg strongly preferred at P1', and Phe/Leu at P2. KLK6 displayed trypsin-like activity, with the P1 position occupied only by Arg and a strong preference for Ser in P1'. Docking simulations of consensus peptide provide information on the identity of the enzyme residues that are responsible for substrate binding. Bioinformatic analysis suggested several putative KLK6 protein substrates, such as ionotropic glutamate receptor (GluR) and synphilin.