Mac-2-binding glycoproteins. Putative ligands for a cytosolic beta-galactoside lectin

Mac-2, a galactose-binding lectin secretion by activated macrophages, is the major non-integrin laminin-binding protein in these cells. Mac-2 is also expressed by epithelial cells in the intestine and kidney. We wished to identify intestinal glycoproteins other than laminin that have a high affinity for Mac-2 and that could be considered as candidate ligands or partners for this lectin in intestinal epithelium. Certain lines of human colon adenocarcinoma cells produce two Mac-2-binding glycoproteins (M2BP-1 and M2BP-2) that were identified by their avid association with Mac-2 following detergent lysis and immunoprecipitation. These glycoproteins do not share a common epitope with Mac-2, and the interaction between Mac-2 and these proteins is mediated through the carbohydrate-binding domain of Mac-2 and sugar moieties on M2BP-1 and M2BP-2. M2BP-1 (98 kDa) and M2BP-2 (70 kDa) were purified by immunoaffinity chromatography and were specifically eluted with either galactose or lactose. Peptide maps revealed that M2BP-1 and M2BP-2 are structurally related. M2BP-1 is secreted and could conceivably associate with Mac-2 extracellularly. N-terminal sequence analysis of M2BP-2 suggests that these glycoproteins represent a unique subset of candidate ligands for this mammalian beta-galactoside lectin.     

Role of exogenous ascorbic acid in tissue status of ascorbic acid-2-sulphate in guinea pigs.

Guinea pigs were given ascorbic acid orally in two doses; a low and a high dose. The tissue levels of ascorbic acid-2-sulphate was estimated in these animals after 15 days of feeding and a subsequent deprivation period of 15 days. The specific activity of the enzymes ascorbic acid sulphotransferase and ascorbic acid-2-sulphate sulphohydrolase was studied. During higher ascorbic acid intake, the activity of ascorbic acid sulphotransferase was increased, whereas ascorbic acid-2-sulphate sulphohydrolase showed a decreased activity. But when ascorbic acid intake was lowered or ceased, the activity of the above enzymes showed a reverse pattern. Possible reasons for the lack of antiscorbutic activity of ascorbic acid-2-sulphate in guinea pigs is discussed.     

Detection and preliminary characterization of Taenia solium metacestode proteases.

The metacestode of Taenia solium persists for years in the human central nervous system. As proteolytic enzymes play an important role in the survival of tissues helminths, we examined extracts of T. solium metacestodes for proteolytic activity using 9 synthetic peptide substrates and 3 proteins (hemoglobin, albumin, and immunoglobulin G). The proteolytic enzymes were classified based on their inhibitor profiles. At neutral pH, aminopeptidase(arginine-7-amino-4-trifluoromethylcoumarin) and endopeptidase(benzyloxy-carbonyl-glycine-glycine-arginine-7-amino-4- trifluoromethylcoumarin) substrates were cleaved. Hydrolysis of both substrates was inhibited by chelating agents, which inhibit metalloproteases. Peak activity with both substrates eluted in gel filtration fractions corresponding to a molecular weight of about 104 kDa. Cysteine protease activity was identified, which cleaved benzyloxy-carbonyl-phenylalanine-arginine-7-amino- 4-trifluoromethylcoumarin (Z-Phe-Arg-AFC) and hemoglobin. Cleavage of Z-Phe-Arg-AFC was maximal at acid pH, was stimulated by thiols, and was inhibited by leupeptin and Ep459. Peak cysteine protease activity eluted in gel filtration fractions corresponding to a molecular weight of 32 kDa. Aspartic protease activity was identified by specific inhibition with pepstatin of acid digestion of hemoglobin and immunoglobulin G. Immunoglobulin digestion occurred at acid pH, with preferential degradation of the heavy chain. Upon gel filtration chromatography, the aspartic protease activity eluted as a broad peak with maximal activity at about 90 kDa. No serine protease activity was detected. None of the parasite enzymes digested albumin. Proteolytic enzymes of T. solium may be important for parasite survival in the intermediate host, by providing nutrients and digesting host immune molecules.     

Effect of human plasma proteins on spontaneous contractile activity of rat mesenteric portal vein.

This study examines the effect of various plasma proteins from man on the spontaneous contractile activity of the rat portal vein. Albumin, gamma-globulin, alpha-globulin, beta-globulin (the major plasma proteins), and immunoglobulin IgG (the major immunoglobulin present in the gamma-globulin fraction) were obtained commercially. Mesenteric portal vein strips were prepared from rats and placed in a physiological salt solution in muscle baths for the measurement of longitudinal mechanical response. Portal veins exposed to albumin or gamma-globulin showed a dose-dependent increase in the spontaneous activity, whereas those exposed to alpha-globulin or alpha- and beta-globulin together showed a dose-dependent inhibition of spontaneous activity. Immunoglobulin IgG produced a dose-dependent increase in the spontaneous activity similar to that of gamma-globulin. The increased spontaneous activity produced by albumin was not prevented by ouabain but was inhibited by phentolamine. Spontaneous contractile activity was stimulated by albumin in the chemically (6-hydroxydopamine) denervated portal vein. These findings indicate that albumin acts in a manner similar to noradrenaline. The increased spontaneous activity caused by gamma-globulin (IgG) was inhibited by ouabain or verapamil. The effect of IgG was not dependent on alpha-adrenergic, cholinergic, histaminergic, serotoninergic, or renin angiotensin systems nor was it affected by removal of the endothelium. These observations may have implications in the pathophysiology of essential hypertension.     

The binding of chondroitin 6-sulfate to plasma low density lipoprotein

The interaction in vitro of several sulfated glycosaminoglycans with low density lipoproteins (LDL) has been studied. Chondroitin 6-sulfate and heparin were the only ones to produce turbidity when added to LDL in presence of Ca2+. However, when these two glycosaminoglycans were applied to LDL-affinity columns in presence of Ca2+, only chondroitin 6-sulfate was retained. Partially desulfated chondroitin 6-sulfate was not retained on LDL-affinity column, indicating the relevance of sulfate groups in the binding of LDL. Since chondroitin 4-sulfate and heparin, with a sulfate content respectively equal to and greater than that of chondroitin 6-sulfate, are not retained on LDL-affinity columns, the factors relevant to the binding of LDL are probably the conformation of the glycan in solution and the orientation of its sulfate groups.     

Proton NMR study of iron(II)-bleomycin: Assignment of resonances by saturation transfer experiments

The assignment of the paramagnetically shifted resonances of the Fe(II)-bleomycin complex in D₂O has been accomplished using the transfer of saturation method. A number of additional resonances arising from labile N$\text{H}$ protons which are shifted by the metal ion are observed in the ¹H spectrum of the complex in H₂O. The temperature dependence of the chemical shifts is consistent with the formation of an isolated 1:1 complex, but does not obey either the Curie Law or the Curie-Weiss Law. The magnitude of the shifts suggests that the valeric acid hydroxyl (or carbonyl) group, the α-amino group, the imidazole N^π, the carbamoyl oxygen, the pyrimidine N₁ and/or the secondary amino group may be coordinated to the iron(II).     

Dhanwantaram kashayam,an Ayurvedic polyherbal formulation,reduces oxidative radicals and reverts lipids profile towards normal in diabetic rats

BackgroundHyperglycemia and hyper oxidative stress are indicators of diabetes mellitus which is also accompanied with decreased levels of antioxidant enzymes. While oxidative stress is important in increasing insulin secretion and controlling blood sugar level at the same time excess oxidative stress leads to the destruction of beta cells of pancreas resulting in to low insulin production and hyperglycemia. A balance between the levels of oxidative radicals and insulin production is needed, but is not defined yet. Hyperglycemia also leads to hyperlipidemia which can contribute to various health conditions like cardiovascular diseases.ObjectivesThis study was designed to study the oxidative stress and lipid levels in diabetic rats. This also was designed to elucidate the effect of Dhanwantaram Kashayam, an Ayurvedic polyphenolic derived from plants on lipid metabolism and oxidative radical scavenging in diabetic rats.MethodsRats were made diabetic by injecting streptozotocin. Different enzymes involved in oxidative radical scavenging and lipid profiles including triglycerides, total cholesterol, free fatty acids and phospholipids were estimated using standard methods reported elsewhere.ResultsLevel of antioxidant enzymes were lower in diabetic rats compared to normal controls. Administration of Dhanwantaram Kashayam restored the enzyme activity as well as reduced levels of different lipids in diabetic rats.ConclusionsAdministration of Dhanwantaram Kashayam increased the activity levels of antioxidant enzymes and reduced the levels of total cholesterol, phospholipids and triglycerides. The results of this study point to the possibility of developing Dhanwantaram Kashayam as a dietary supplement which can alleviate the complications associated with diabetes or prevent them altogether.     

Influence of cholesterol on cancer progression and therapy

Cholesterol is a fundamental molecule necessary for the maintenance of cell structure and is vital to various normal biological functions. It is a key factor in lifestyle-related diseases including obesity, diabetes, cardiovascular disease, and cancer. Owing to its altered serum chemistry status under pathological states, it is now being investigated to unravel the mechanism by which it triggers various health complications. Numerous clinical studies in cancer patients indicate an alteration in blood cholesterol level (either decreased or increased) in comparison to normal healthy individuals. This article elaborates on our understanding as to how cholesterol is being hijacked in the malignancy for the development, survival, stemness, progression, and metastasis of cancerous cells. Also, it provides a glimpse of how cholesterol derived entities, alters the signaling pathway towards their advantage. Moreover, deregulation of the cholesterol metabolism pathway has been often reported to hamper various treatment strategies in different cancer. In this context, attempts have been made to bring forth its relevance in being targeted, in pre-clinical and clinical studies for various treatment modalities. Thus, understanding the role of cholesterol and deciphering associated molecular mechanisms in cancer progression and therapy are of relevance towards improvement in the management of various cancers.