Preparation of human alpha-2-macroglobulin by chromatography on Cibacron Blue Sepharose in the presence of pregnancy- associated alpha-2-glycoprotein

The simple and efficient procedure for the isolation of alpha-2-macroglobulin (alpha-2-M) from human sera (hp-type 1-1) by means of affinity chromatography on Cibacron Blue Sepharose is not convenient to separate it from pregnancy-associated alpha-2-glycoprotein (alpha-2-PAG) which is present in high amounts in sera of estrogen-treated women, at pregnancy, and under other conditions. With this method both proteins are eluted in the same fractions; gel filtration of these fractions does not lead to their separation. Therefore, the use of male sera (tesed by monospecific antisera to alpha-2-PAG) with low alpha-2-PAG, content (hp-type 1-1) is recommended for alpha-2-M preparation.     

Prokaryote-derived protein inhibitors of peptidases: A sketchy occurrence and mostly unknown function

In metazoan organisms protein inhibitors of peptidases are important factors essential for regulation of proteolytic activity. In vertebrates genes encoding peptidase inhibitors constitute up to 1% of genes reflecting a need for tight and specific control of proteolysis especially in extracellular body fluids. In stark contrast unicellular organisms, both prokaryotic and eukaryotic consistently contain only few, if any, genes coding for putative peptidase inhibitors. This may seem perplexing in the light of the fact that these organisms produce large numbers of proteases of different catalytic classes with the genes constituting up to 6% of the total gene count with the average being about 3%. Apparently, however, a unicellular life-style is fully compatible with other mechanisms of regulation of proteolysis and does not require protein inhibitors to control their intracellular and extracellular proteolytic activity. So in prokaryotes occurrence of genes encoding different types of peptidase inhibitors is infrequent and often scattered among phylogenetically distinct orders or even phyla of microbiota. Genes encoding proteins homologous to alpha-2-macroglobulin (family I39), serine carboxypeptidase Y inhibitor (family I51), alpha-1-peptidase inhibitor (family I4) and ecotin (family I11) are the most frequently represented in Bacteria. Although several of these gene products were shown to possess inhibitory activity, with an exception of ecotin and staphostatins, the biological function of microbial inhibitors is unclear. In this review we present distribution of protein inhibitors from different families among prokaryotes, describe their mode of action and hypothesize on their role in microbial physiology and interactions with hosts and environment.     

Synuclein proteins of the pufferfish Fugu rubripes: sequences and functional characterization

In humans, three genes encode the related alpha-, beta-, and gamma-synucleins, which function as lipid-binding proteins in vitro. They are being widely studied, mainly because of the central involvement of alpha-synuclein in a number of neurodegenerative diseases, including Parkinson's disease, dementia with Lewy bodies, and multiple system atrophy. In these diseases, the normally soluble alpha-synuclein assembles into abnormal filaments. Here, we have identified and characterized the synuclein gene family from the pufferfish Fugu rubripes. It consists of four genes, which encode alpha-, beta-, gamma1-, and gamma2-synucleins. They range from 113 to 127 amino acids in length and share many of the characteristics of human synucleins, including the presence of imperfect amino-terminal repeats of 11 amino acids, a hydrophobic middle region, and a negatively charged carboxy-terminus. All four synucleins are expressed in the Fugu brain. Recombinant Fugu synucleins exhibited differential liposome binding, which was strongest for alpha-synuclein, followed by beta-, gamma2-, and gamma1-synucleins. In assembly experiments, Fugu alpha-, gamma1-, and gamma2-synucleins formed filaments more readily than human alpha-synuclein. Fugu beta-synuclein, by contrast, failed to assemble in bulk. Filament assembly of synucleins was directly proportional to their degree of hydrophobicity and their tendency to form beta-sheet structure, and correlated inversely with their net charge.     

Type IX collagen is a potent inducer of PGE2 and interleukin 1 production by human monocyte macrophages

Type IX collagen and its collagenous fragments are potent stimulatory agents on human blood mononuclear cells for the production of prostaglandin E2 and interleukin 1/mononuclear cell factor. Type IX collagen is 2-4-fold more potent that type I and II and 1 alpha-, 2 alpha- and 3 alpha-collagens. This property may be important in the destructive process of cartilage in inflammatory diseases.     

Guanylylation and adenylylation of the alpha regulatory proteins of herpes simplex virus require a viral beta or gamma function.

Herpes simplex virus genes form several groups whose expression is coordinately regulated and sequentially ordered in a cascade fashion. Most of the products of the first group, the alpha genes, appear to have regulatory functions. We report that the alpha proteins, infected cell proteins 4, 0, 22, and 27 of herpes simplex virus 1 and 4, 0, and 27 of herpes simplex virus 2, were labeled in the isolated nuclei of infected HeLa cells with [alpha-32P]GTP or [alpha-32P]ATP late in infection and that these proteins represent the largest group of virus-specific proteins labeled in this fashion. Studies with [2-3H]ATP, in which the label is in the purine ring, showed that a portion of the label in alpha proteins and in at least one other infected cell protein is due to nucleotidylylation. Analyses of the labeling reactions in nuclei of (i) cells infected with temperature-sensitive mutants at nonpermissive temperatures, (ii) cells infected with wild-type virus and harvested at different times postinfection, and (iii) cells treated with inhibitors of protein synthesis or of synthesis of viral DNA led to the conclusion that viral gene functions expressed after the synthesis of alpha proteins are required for the labeling of the alpha proteins with [alpha-32P]GTP. We conclude that several of the alpha proteins are extensively posttranslationally modified and that these modifications include nucleotidylylation.     

Antioxidant status and proteolytic-antiproteolytic balance in colorectal cancer

Free radicals participate in the development of cancer. When the antioxidant defence system is not longer capable to destroy free radicals they may cause lipid and protein oxidation. Lipid peroxidation products also modify proteins. In such a situation the proteolytic-antiproteolytic balance existing in the blood may be changed. Therefore the aim of this study was to examine the correlation between antioxidant status and activity of proteolytic enzymes and their inhibitors in cases of colorectal cancer. This study included 55 patients with colorectal cancer. The blood was taken before surgery and plasma was collected. Total antioxidant status, the levels of lipid peroxidation products (malondialdehyde and 4-hydroxynonenal) and activity of cathepsin G, elastase and their inhibitors (alpha-1-antitrypsin and alpha-2-macroglobulin) were determined in plasma. It was shown that during the development of cancer total antioxidant status was signficantly decreased while lipid peroxidation products were increased. Activity of alpha-2-macroglobulin was decreased and activity of determined enzymes was not significantly changed. The observed changes indicate a shift in proteolytic-antiproteolytic balance which may enhance carcinogenesis.     

Interaction of acetylene and cyanide with the resting state of nitrogenase alpha-96-substituted MoFe proteins.

The nitrogenase MoFe protein contains the active site metallocluster called FeMo-cofactor [7Fe-9S-Mo-homocitrate] that exhibits an S = 3/2 EPR signal in the resting state. No interaction with FeMo-cofactor is detected when either substrates or inhibitors are incubated with MoFe protein in the resting state. Rather, the detection of such interactions requires the incubation of the MoFe protein together with its obligate electron donor, called the Fe protein, and MgATP under turnover conditions. This indicates that a more reduced state of the MoFe protein is required to accommodate substrate or inhibitor interaction. In the present work, substitution of an arginine residue (alpha-96(Arg)) located next to the active site FeMo-cofactor in the MoFe protein by leucine, glutamine, alanine, or histidine is found to result in MoFe proteins that can interact with acetylene or cyanide in the as-isolated, resting state without the need for the Fe protein, or MgATP. The dithionite-reduced, resting states of the alpha-96(Leu)-, alpha-96(Gln)-, alpha-96(Ala)-, or alpha-96(His)-substituted MoFe proteins show an S = 3/2 EPR signal (g = 4.26, 3.67, 2.00) similar to that assigned to FeMo-cofactor in the wild-type MoFe protein. However, in contrast to the wild-type MoFe protein, the alpha-96-substituted MoFe proteins all exhibit changes in their EPR spectra upon incubation with acetylene or cyanide. The alpha-96(Leu)-substituted MoFe protein was representative of the other alpha-96-substituted MoFe proteins examined. The incubation of acetylene with the alpha-96(Leu) MoFe protein decreased the intensity of the normal FeMo-cofactor signal with the appearance of a new EPR signal having inflections at g = 4.50 and 3.50. Incubation of cyanide with the alpha-96(Leu) MoFe protein also decreased the FeMo-cofactor EPR signal with concomitant appearance of a new EPR signal having an inflection at g = 4.06. The acetylene- and cyanide-dependent EPR signals observed for the alpha-96(Leu)-substituted MoFe protein were found to follow Curie law 1/T dependence, consistent with a ground-state transition as observed for FeMo-cofactor. The microwave power dependence of the EPR signal intensity is shifted to higher power for the acetylene- and cyanide-dependent signals, consistent with a change in the relaxation properties of the spin system of FeMo-cofactor. Finally, the alpha-96(Leu)-substituted MoFe protein incubated with (13)C-labeled cyanide displays a (13)C ENDOR signal with an isotropic hyperfine coupling of 0.42 MHz in Q-band Mims pulsed ENDOR spectra. This indicates the existence of some spin density on the cyanide, and thus suggests that the new component of the cyanide-dependent EPR signals arise from the direct bonding of cyanide to the FeMo-cofactor. These data indicate that both acetylene and cyanide are able to interact with FeMo-cofactor contained within the alpha-96-substituted MoFe proteins in the resting state. These results support a model where effective interaction of substrates or inhibitors with FeMo-cofactor occurs as a consequence of both increased reactivity and accessibility of FeMo-cofactor under turnover conditions. We suggest that, for the wild-type MoFe protein, the alpha-96(Arg) side chain acts as a gatekeeper, moving during turnover in order to permit accessibility of acetylene or cyanide to a specific [4Fe-4S] face of FeMo-cofactor.     

The serum protein content of human follicular fluid and its correlation with the maturity of oocytes

The authors determined, by an immunochemical method, the alpha-1-antitrypsin, Gc globulin, prealbumin, albumin, haemopexin, transferrin, haptoglobin, IgA, IgG, ceruloplasmin, alpha-2-macroglobulin contents of 98 follicular fluids, 10 peritoneal fluids and 24 blood sera. Out of these proteins analysed, change in the concentration of alpha-1-antitrypsin showed correlation with the maturity and fertilisation of the oocyte. The alpha-1-antitrypsin content was 1.6 +/- 0.26 g/l in the case of mature oocytes, and 3.1 +/- 1.12 g/l in the case of immature ones. Fertilisation was also concomitant of low alpha-1-antitrypsin levels.     

Metabolism of alpha macroglobulins of rabbits: study of their half-life]

Rabbit alpha-1-M and alpha-2-M labelling was carried out in vitro with 131I and in vivo with 75-Seleno-methionine in order to determine the half-life of these proteins. alpha-2-M catabolism is faster than the alpha-1-M one. This result is the same when these proteins were obtained from a plasma of a rabbit exhibiting an inflammatory reaction though their half life was shorter.     

内皮联蛋白在血管生成中的调控机制及作用

机体新生血管的形成和稳态的维持是保证组织细胞正常生命活动的重要基础。参与血管生成这一生理过程的因子众多,血管生成机制复杂,该过程的异常与血管疾病、肿瘤和癌症的发生密切相关。内皮联蛋白(endoglin,ENG)是一种主要在内皮细胞上表达的I型跨膜糖蛋白,其作为转化生长因子β家族的辅助受体在调控血管生成与稳态中发挥着重要作用。随着基质金属蛋白酶14(matrix metalloproteinase 14,MMP14)、整合素、血管生成性糖蛋白LRG1(leucine-rich alpha-2-glycoprotein-1,LRG1)、G蛋白信号调节体-G alpha相互作用蛋白C端(GAIP interacting protein C-terminus,GIPC)等越来越多与ENG具有相互作用的蛋白质被鉴定出来,关于ENG调控血管生成的分子机制的研究已有了一定的进展,但各个蛋白质之间错综复杂的调控网络仍有待探究和梳理。阐明ENG及其互作的蛋白质的特征、对信号传导的影响和对血管生成的贡献,对于理解机体在生理、病理条件下如何精细、有序地调控血管生成至关重要,且对于相关疾病的临床治疗手段的研究具有重要意义。本文系统总结了ENG与TGF-β及非TGF-β家族相关蛋白质的互作及在调控血管生成中的作用,并对未来ENG相关研究方向做出展望,以期为研究ENG在相关血管疾病中的机制提供分子层面的指导。     

Potent mechanism-based inhibitors for matrix metalloproteinases

Matrix metalloproteinases (MMPs) are zinc-dependent endopeptidases that play important roles in physiological and pathological conditions. Both gelatinases (MMP-2 and -9) and membrane-type 1 MMP (MMP-14) are important targets for inhibition, since their roles in various diseases, including cancer, have been well established. We describe herein a set of mechanism-based inhibitors that show high selectivity to gelatinases and MMP-14 (inhibitor 3) and to only MMP-2 (inhibitors 5 and 7). These molecules bind to the active sites of these enzymes, initiating a slow binding profile for the onset of inhibition, which leads to covalent enzyme modification. The full kinetic analysis for the inhibitors is reported. These are nanomolar inhibitors (Ki) for the formation of the noncovalent enzyme-inhibitor complexes. The onset of slow binding inhibition is rapid (k(on) of 10(2) to 10(4) M(-1) s(-1) and the reversal of the process is slow (k(off) of 10(-3) to 10(-4) s(-1)). However, with the onset of covalent chemistry with the best of these inhibitors (e.g. inhibitor 3), very little recovery of activity (<10%) was seen over 48 h of dialysis. We previously reported that broad spectrum MMP inhibitors like GM6001 enhance MT1-MMP-dependent activation of pro-MMP-2 in the presence of tissue inhibitor of metalloproteinases-2. Herein, we show that inhibitor 3, in contrast to GM6001, had no effect on pro-MMP-2 activation by MT1-MMP. Furthermore, inhibitor 3 reduced tumor cell migration and invasion in vitro. These results show that these new inhibitors are promising candidates for selective inhibition of MMPs in animal models of relevant human diseases.     

Enzyme-inhibitor complexes of lysozyme with glucosamine inhibitors. A molecular dynamics study through 2H-NMR

2H relaxation measurements coupled with multiple specific 2H labeling have provided insight into the molecular dynamics of N-acetyl-D-glucosamine (GlcNAc) inhibitors bound to lysozyme. Deuteron T1 and T2 data for the bound state of methyl alpha- and -beta-GlcNAc 2H-labeled in the glycosidic methyl and C2 positions have been derived from measurements at different enzyme/inhibitor ratios. Rotational correlation times calculated therefrom for the labeled sites indicate, in both cases, tight binding for the sugar ring (tau(b) = 3.0 x 10(-9) s) accompanied by fast internal rotation, about one axis, of the glycosidic methyl groups (tau(r) = 5.5-7.6 x 10(-11) s). The small but consistent difference in the rates of internal rotation for the alpha- and beta-anomeric inhibitors may be indicative of different solution structures of the enzyme-inhibitor complexes.     

Alpha-2-macroglobulin, albumin, and chymotrypsin inhibitory capacity in cerebrospinal fluid as indices of blood-cerebrospinal fluid barrier

Concentration of alpha-2-macroglobulin, albumin, and chymotrypsin inhibitory capacity representing mainly alpha-1-proteinase inhibitor were estimated in cerebrospinal fluid in disorders of the central nervous system. While chymotrypsin inhibitory capacity was elevated in all cases with derangement of the blood-cerebrospinal fluid barrier, in 30% of the cases alpha-2-macroglobulin levels were in the normal range. The difference can be attributed to the much larger size of the latter. Better correlation between albumin concentration and chymotrypsin inhibitory capacity (r = 0.84) than between albumin and alpha-2-macroglobulin (r = 0.62) supports the view that the rate of entry of proteins from blood into cerebrospinal fluid is inversely related to their size.     

Cationic proteins from human neutrophil granulocytes. Evidence for their chymotrypsin-like properties.

Three cationic proteins from the granules of human neutrophil granulocytes were obtained in a high degree of purity be means of affinity chromatography on 4-phenylbutylamine-Sepharose. Together with lysozyme, the three cationic proteins exhibit the highest electrophoretic mobility toward the cathode in acrylamide gels at moderately acid pH, among the granule constituents that are solubilized in 0.1 M phosphate buffer, pH 7.0, containing 1 M NaCl. The three cationic proteins represent a group of "neutral proteases" distinct from elastase and collagenase. They hydrolyze casein, azocasein and the chymotrypsin substrate N-acetyl-L-tyrosine ethyl ester. Optimal activity is found at pH 7.4-7;5. The enzymes are inhibited by the specific chymotrypsin inhibitor N-tosyl-L-phenylalanylchloromethane and by the naturally occurring inhibitors alpha-antichymotrypsin, alpha-1-antitrypsin, as well as by the trypsin inhibitors from soy beans and limabeans.     

Affinity chromatography of alpha-1-protease inhibitor using Sepharose-4B-bound anhydrochymotrypsin

Sepharose 4B-bound bovine anhydrochymotrypsin (AnhCT), a catalytically inactive form of chymotrypsin, was shown to be effective for retaining active alpha-1-protease inhibitor (alpha-1-PI, also alpha-1-antitrypsin) from human plasma, while showing no measurable affinity for oxidized or protease complexed alpha-1-PI, or for most other plasma proteins. alpha-1-PI eluted from this resin with 0.1 M chymostatin retained full activity against trypsin, chymotrypsin, and elastase. In addition to alpha-1-PI, AnhCT-Sepharose binds a limited number of other plasma proteins. Using monospecific antisera to plasma protease inhibitors, one of these proteins was identified as inter-alpha-trypsin inhibitor, and it was recoverable in active form. Therefore, an AnhCT-Sepharose 4B resin has been demonstrated to be of value for isolating active forms of alpha-1-PI from solutions, and may also be useful for the isolation of inter-alpha-trypsin inhibitor.     

Differential inhibitor sensitivity between human kinases VRK1 and VRK2

Human vaccinia-related kinases (VRK1 and VRK2) are atypical active Ser-Thr kinases implicated in control of cell cycle entry, apoptosis and autophagy, and affect signalling by mitogen activated protein kinases (MAPK). The specific structural differences in VRK catalytic sites make them suitable candidates for development of specific inhibitors. In this work we have determined the sensitivity of VRK1 and VRK2 to kinase inhibitors, currently used in biological assays or in preclinical studies, in order to discriminate between the two proteins as well as with respect to the vaccinia virus B1R kinase. Both VRK proteins and vaccinia B1R are poorly inhibited by inhibitors of different types targeting Src, MEK1, B-Raf, JNK, p38, CK1, ATM, CHK1/2 and DNA-PK, and most of them have no effect even at 100 μM. Despite their low sensitivity, some of these inhibitors in the low micromolar range are able to discriminate between VRK1, VRK2 and B1R. VRK1 is more sensitive to staurosporine, RO-31-8220 and TDZD8. VRK2 is more sensitive to roscovitine, RO 31-8220, Cdk1 inhibitor, AZD7762, and IC261. Vaccinia virus B1R is more sensitive to staurosporine, KU55933, and RO 31-8220, but not to IC261. Thus, the three kinases present a different pattern of sensitivity to kinase inhibitors. This differential response to known inhibitors can provide a structural framework for VRK1 or VRK2 specific inhibitors with low or no cross-inhibition. The development of highly specific VRK1 inhibitors might be of potential clinical use in those cancers where these kinases identify a clinical subtype with a poorer prognosis, as is the case of VRK1 in breast cancer.     

Posttranslational processing of alpha-tubulin during axoplasmic transport in CNS axons

Tubulin proteins in mouse retinal ganglion cell (RGC) neurons were analyzed to determine whether they undergo posttranslational processing during axoplasmic transport. Alpha- and beta-tubulin comprised heterogeneous proteins in the primary optic pathway (optic nerve and optic tract) when examined by two-dimensional (2D) PAGE. In addition, however, alpha-tubulin exhibited regional heterogeneity when consecutive 1.1-mm segments of the optic pathway were analyzed separately. In proximal segments, alpha-tubulin consisted of two predominant proteins separable by isoelectric point and several less abundant species. In more distal segments, these predominant proteins decreased progressively and the alpha-tubulin region of the gel was represented by less abundant multiple forms only; beta-tubulin region of the gel was represented by less abundant multiple forms only; beta- tubulin was the same in all segments. After intravitreal injection of [3H]proline to mice, radiolabeled alpha- and beta-tubulin heteroproteins were conveyed together at a rate of 0.1-0.2 mm/d in the slowest phase of axoplasmic transport. At 45 d postinjection, the distribution of radiolabeled heterogeneous forms a alpha- and beta- tubulin in consecutive segments of optic pathway resembled the distribution of unlabeled proteins by 2D PAGE, indicating that regional heterogeneity of tubulin arises during axonal transport. Peptide mapping studies demonstrated that the progressive alteration of alpha- tubulin revealed by PAGE analysis cannot be explained by contamination of the alpha-tubulin region by other proteins on gels. The results are consistent with the posttranslational processing of alpha-tubulin during axoplasmic transport. These observations, along with the accompanying report (J. Cell Biol., 1982, 94:150-158), provide additional evidence that CNS axons may be regionally specialized.     

Tissue alpha-globulins in keloid formation.

The deposition of alpha-1-antitrypsin and alpha-2-macroglobulin, both known to be inhibitors of human skin collagenase, is significantly increased in keloids and in hypertrophic scars (as compared to normal skin). However, following intralesional triamcinolone treatment, a marked resorption of these abnormal scars occurs along with a significant reduction of the alpha-1-antitrypsin deposits. These findings suggest that alpha-globulins are involved in abnormal scar formation, and that triamcinolone may remove collagenase and/or protease inhibitors--thereby allowing activation of the collagenase with subsequent breakdown and resorption of the excessive collagen.     

Kinetics of the inhibition of neutrophil proteinases by recombinant elafin and pre-elafin (trappin-2) expressed in Pichia pastoris.

Elafin and its precursor, trappin-2 or pre-elafin, are specific endogenous inhibitors of human neutrophil elastase and proteinase 3 but not of cathepsin G. Both inhibitors belong, together with secretory leukocyte protease inhibitor, to the chelonianin family of canonical protease inhibitors of serine proteases. A cDNA coding either elafin or its precursor, trappin-2, was fused in frame with yeast alpha-factor cDNA and expressed in the Pichia pastoris yeast expression system. Full-length elafin or full-length trappin-2 were secreted into the culture medium with high yield, indicating correct processing of the fusion proteins by the yeast KEX2 signal peptidase. Both recombinant inhibitors were purified to homogeneity from concentrated culture medium by one-step cationic exchange chromatography and characterized by N-terminal amino acid sequencing, Western blot and kinetic studies. Both recombinant elafin and trappin-2 were found to be fast-acting inhibitors of pancreatic elastase, neutrophil elastase and proteinase 3 with k(ass) values of 2-4 x 10(6) m(-1).s(-1), while dissociation rate constants k(diss) were found to be in the 10(-4) s(-1) range, indicating low reversibility of the complexes. The equilibrium dissociation constant K(i) for the interaction of both recombinant inhibitors with their target enzymes was either directly measured for pancreatic elastase or calculated from k(ass) and k(diss) values for neutrophil elastase and proteinase 3. K(i) values were found to be in the 10(-10) molar range and virtually identical for both inhibitors. Based on the kinetic parameters determined here, it may be concluded that both recombinant elafin and trappin-2 may act as potent anti-inflammatory molecules and may be of therapeutic potential in the treatment of various inflammatory lung diseases.