Role of the single cysteine residue, Cys 3, of human and bovine cystatin B (stefin B) in the inhibition of cysteine proteinases

Cystatin B is unique among cysteine proteinase inhibitors of the cystatin superfamily in having a free Cys in the N-terminal segment of the proteinase binding region. The importance of this residue for inhibition of target proteinases was assessed by studies of the affinity and kinetics of interaction of human and bovine wild-type cystatin B and the Cys 3-to-Ser mutants of the inhibitors with papain and cathepsins L, H, and B. The wild-type forms from the two species had about the same affinity for each proteinase, binding tightly to papain and cathepsin L and more weakly to cathepsins H and B. In general, these affinities were appreciably higher than those reported earlier, perhaps because of irreversible oxidation of Cys 3 in previous work. The Cys-to-Ser mutation resulted in weaker binding of cystatin B to all four proteinases examined, the effect varying with both the proteinase and the species variant of the inhibitor. The affinities of the human inhibitor for papain and cathepsin H were decreased by threefold to fourfold and that for cathepsin B by approximately 20-fold, whereas the reductions in the affinities of the bovine inhibitor for papain and cathepsins H and B were approximately 14-fold, approximately 10-fold and approximately 300-fold, respectively. The decreases in affinity for cathepsin L could not be properly quantified but were greater than threefold. Increased dissociation rate constants were responsible for the weaker binding of both mutants to papain. By contrast, the reduced affinities for cathepsins H and B were due to decreased association rate constants. Cys 3 of both human and bovine cystatin B is thus of appreciable importance for inhibition of cysteine proteinases, in particular cathepsin B.     

Conformational transitions induced by in vitro macromolecular crowding lead to the amyloidogenesis of buffalo heart cystatin

The biological cells and extracellular matrix exhibit a highly crowded environment, called as macromolecular crowding. Crowding significantly influences protein structure and may lead to its aggregation. In the present study, buffalo heart cystatin (BHC), after purification from buffalo heart tissue, has been used as a model protein for studying effect of macromolecular crowding in the presence of high concentrations of bovine serum albumin (BSA), poly‐ethylene glycol‐1000 (PEG‐1000), and poly‐ethylene glycol‐4000 (PEG‐4000). Cystatins are thiol protease inhibitors and found to be involved in various important physiological processes. Functional inactivation of BHC was observed upon crowding, which varied as a function of concentration and molecular weight of crowding agents as well as incubation time. Structural changes of BHC at tertiary and secondary level were detected with the help of fluorescence and CD spectroscopy. CD analysis showed changes of α‐helix to β‐sheet, which could be due to aggregation. The ANS‐fluorescence study suggested the unfolding and presence of some partially folded intermediates. Increase in ThT‐fluorescence and absorption of Congo red spectra with red shift, confirmed the amyloid type aggregation of BHC in the presence of various crowding agents. Finally, electron microscopy provided the physical evidence about the formation of amyloid fibrils. Results suggested that among the various crowding agents used, amyloidogenesis of BHC was maximal in case of BSA followed by PEG‐4000 and least for PEG‐1000. The present work makes an important contribution in crowding mediated protein aggregation, which can have implications of potential interest. Copyright © 2015 John Wiley & Sons, Ltd.     

血清胱抑素C和尿微量白蛋白在慢性肾小球肾炎早期肾功能损害评估中的意义

目的:探讨血清胱抑素C和尿微量白蛋白在慢性肾小球肾炎早期肾功能损害评估中的意义。方法:选取2010年9月至2013年7月我院收治的86名慢性肾小球肾炎患者,设为观察组。另选取同期在我院体检的年龄、性别等资料与之匹配的66名健康者设为对照组。分别对患者的CysC以及mALB的含量进行测定,并进行统计分析。结果:观察组和对照组的Cys C含量分别为(2.68±1.19)mg/L、(0.83±1.04)mg/L,观察组明显高与对照组;mALB的含量观察组为(38.16±4.25)mg/L,相比于对照组的(6.87±3.93)mg/L明显升高;Cys C及mALB阳性指标的检出率分别为75.58%、76.74%,而Cys C与mALB进行联合检测,检出率为91.86%,相比于单指标的检出率明显提高。差异具有统计学意义(P0.05)。通过对慢性肾小球肾炎患者的两项指标进行相关性分析,发现血清Cys C和尿mALB的含量呈显著的正相关(r=0.941,P0.05)。结论:将CysC与mALB相结合检测用以对慢性肾小球肾炎患者早期肾功能损害进行评估,检出率和敏感性均明显高于单指标检测。     

血清半胱氨酸蛋白酶抑制剂C在肾移植患者肾功能监测中的临床应用

目的针对肾移植术后稳定期患者,进行血清半胱氨酸蛋白酶抑制剂C(Cystatin C)和血清肌酐(SCr)的灵敏度的比较。方法在HITACHI-7600-020型自动生化分析仪上采用微粒子颗粒增强透射免疫比浊分析法等方法测定肾移植术后稳定期患者的Cystatin C、SCr等指标。结果对数据用SPSS 11.5软件包进行χ2检验,P<0.01,故可以认为2种检测指标间的差异有统计学意义,即Cystatin C与SCr相比有较好的敏感度。结论血清Cystatin C在稳定期肾移植患者中敏感性与SCr差异存在统计学意义,且优于SCr,能更敏感,更及时的反映GFR的变化,可作为稳定期肾移植患者判断急、慢性排斥和免疫抑制剂的毒性的最重要的观察指标之一。     

Activity profiling of barley vacuolar processing enzymes provides new insights into the plant and cyst nematode interaction

Vacuolar processing enzymes (VPEs) play an important role during regular growth and development and defence responses. Despite substantial attempts to understand the molecular basis of plant–cyst nematode interaction, the mechanism of VPEs functioning during this interaction remains unknown. The second-stage Heterodera filipjevi juvenile penetrates host roots and induces the formation of a permanent feeding site called a syncytium. To investigate whether infection with H. filipjevi alters plant host VPEs, the studies were performed in Hordeum vulgare roots and leaves on the day of inoculation and at 7, 14 and 21 days post-inoculation (dpi). Implementing molecular, biochemical and microscopic methods we identified reasons for modulation of barley VPE activity during interaction with H. filipjevi. Heterodera filipjevi parasitism caused a general decrease of VPE activity in infected roots, but live imaging of VPEs showed that their activity is up-regulated in syncytia at 7 and 14 dpi and down-regulated at 21 dpi. These findings were accompanied by tissue-specific VPE gene expression patterns. Expression of the barley cystatin HvCPI-4 gene was stimulated in leaves but diminished in roots upon infestation. External application of cyclotides that can be produced naturally by VPEs elicits in pre-parasitic juveniles vesiculation of their body, enhanced formation of granules, induction of exploratory behaviour (stylet thrusts and head movements), production of reactive oxygen species (ROS) and final death by methuosis. Taken together, down-regulation of VPE activity through nematode effectors promotes the nematode invasion rates and leads to avoidance of the induction of the plant proteolytic response and death of the invading juveniles.     

Native and Acid-denatured L-Lactate Dehydrogenase Are Different in the Lysosomal Proteinases Involving in Their Overall Degradation

When native and acid-denatured lactate dehydrogenase (LDH) were incubated with total lysosomal enzymes in vitro, amino acids from their degradation were produced at various acidic pH. The pH profile in the overall degradation of native LDH was markedly different from that of acid-denatured LDH. Disappearance of the 35-kDa subunit of native LDH was markedly suppressed by a low level of cystatin α as well as by a general cysteine proteinase inhibitor, N-(L-3-trans-carboxyoxirane-2-carbonyl)-L-leucine-3-methylbutylamide (E-64-c). On the other hand, the degradation of acid-denatured LDH was only slightly suppressed by these inhibitors. It was concluded that at least a part of the proteinases involved in the overall degradation of native LDH is different from the proteinases involved in the degradation of acid-denatured form and a role of a cystatin α-sensitive cysteine proteinase is critical in the lysosomal degradation of native LDH, but not in that of acid-denatured form.     

Mammalian cystatin and protagonists in brain diseases

Abstract

Cystatins are the thiol Proteinase inhibitors, present ubiquitously in mammalian body. They prevent unwanted proteolysis and play important role in several diseases. Regulation of cysteine Proteinase and their inhibitors is of utmost importance in neurodegenerative diseases like Alzheimer, amyloid angiopathy and in many other diseases. The action of these cysteine proteases is biologically controlled by proteinase inhibitors namely cystatins(cys) they constitute a superfamily of homologous proteins. The major role of cystatins is to protect the organism against endogenous proteases released from lysosomes, invading microorganisms and parasites that use cysteine proteases to enter the body. An enormous progress has been made in understanding of protein degradation process under normal and pathological conditions; in fact proteases are now clearly viewed as important drug targets. Some studies have suggested that cystatin C is a target for intervention in neurological disorders because its expression increases in response to human neurological disorders and in animal models of neurodegenerative states. Although, these studies did not clarify whether CysC up-regulation is a pathogenic factor in neurodegenerative disorders or whether it represents a neuroprotective compensatory response of the organisms aimed to prevent progression of the disease. However, for other diseases in some cases cystatins other than cys C are up regulated and in some it is down regulated.

Cystatins have been implicated in the processes of neuronal degeneration and repair of the nervous system. Both CysC and CysB are potent, reversible inhibitors of most of the currently known cathepsins. The extent of proteolytic activity at any given time and location is the result of a balance between active proteases and physiological inhibitors. Uncontrolled proteolysis as a result of imbalance between active proteases and their endogenous inhibitors has been associated with neuronal cell death in different neuronal diseases, including brain tumors, stroke, some forms of epilepsy, Alzheimer’s disease, and neurological autoimmune diseases.

An antidepressant is a psychiatric medication used to alleviate mood disorders, major depression and other brain diseases. Drugs including the monoamine oxidase inhibitors (MAOIs), tricyclic antidepressants (TCAs), and serotonin-norepinephrine reuptake inhibitors (SNRIs) are most commonly used antidepressant. They are also used to treat other conditions, such as anxiety disorders, obsessive compulsive disorder, eating disorders, and chronic pain. Although the mechanisms of the action of these antidepressants are not precisely understood, their principal target of action is at the monoamine transporter proteins located at nerve endings. Monoamine neurotransmitter transporters act to terminate synaptic neurotransmission. Selective serotonin reuptake inhibitors or SSRIs are also most widely used class of antidepressants. They work by increasing the level of serotonin in the brain. SSRIs have fewer and milder side effects, fewer drug interactions, and are much less likely to be associated with suicide than TCAs.

These antidepressants shows binding when incubated with cystatin, presenting the involvement of these antidepressant in cascade of disease, as leaving no cystatin to inhibit the cathepsin showing the myriad side effect after the administration of antidepressant. This might be one of the reason in the mechanism of action of antidepressant.

So this review expound about the role of cystatins in neurological diseases which is considered to be highly significant as it pave the way for commanding tool in the drug design.

Communicated by Ramaswamy H. Sarma