Calpain,calpastatin activities and ratios during myocardial ischemia-reperfusion

The purpose of this study was to test the hypothesis that myocardial ischemia-reperfusion (I/R) is accompanied by an early burst in calpain activity, resulting in decreased calpastatin activity and an increased calpain/calpastatin ratio, thereby promoting increased protein release. To determine the possibility of a calpain burst impacting cardiac calpastatin inhibitory activity, rat hearts were subjected (Langendorff) to either 45 or 60 min of ischemia followed by 30 min of reperfusion with and without pre-administration (s.c.) of a cysteine protease inhibitor (E-64c). Myocardial function, calpain activities (casein release assay), calpastatin inhibitory activity and release of CK, LDH, cTnI and cTnT were determined (n = 8 for all groups). As expected no detectable changes in calpain activities were observed following I/R with and without E-64c (p > 0.05). Both I/R conditions reduced calpastatin activity (p < 0.05) while E-64c pre-treatment was without affect, implicating a non-proteolytic event underlying the calpastatin changes. A similar result was noted for calpain–calpastatin ratios and the release of all marker proteins (p < 0.05). In regard to cardiac function, E-64c resulted in transient improvements (15 min) for left ventricular developed pressure (LVDP) and rate of pressure development (p < 0.05). E-64c had no effect on end diastolic pressure (LVEDP) or coronary pressure (CP) during I/R. These findings demonstrate that restricting the putative early burst in calpain activity, suggested for I/R, by pre-treatment of rats with E-64c does not prevent downegulation of calpastatin inhibitory activity and/or protein release despite a transient improvement in cardiac function. It is concluded that increases in calpain isoform activities are not a primary feature of I/R changes, although the role of calpastatin downregulation remains to be elucidated.     

Differential compartmentalization of the calpain/calpastatin network with the endoplasmic reticulum and Golgi apparatus

Calpain, a calcium-activated cysteine protease, is involved in modulating a variety of cell activities such as shape change, mobility, and apoptosis. The two ubiquitous isoforms of this protease, calpain I and II, are considered to be cytosolic proteins that can translocate to various sites in the cell. The activity of calpain is modulated by two regulatory proteins, calpastatin, the specific endogenous inhibitor of calpain, and the 28-kDa regulatory subunit. Using velocity gradient centrifugation, the results of this study confirm and greatly expand upon our previous finding that the calpain/calpastatin network is associated with the endoplasmic reticulum and Golgi apparatus in cells. Moreover, confocal microscopy demonstrates that calpain II colocalizes with specific proteins found in these organelles. Additional experiments reveal that hydrophobic rather than electrostatic interactions are responsible for the association of the calpain/calpastatin network with these organelles. Treatment of the organelles with Na2CO3 or deoxycholate reveal that calpain I, 78-kDa calpain II, and the regulatory subunit are "embedded" within the organelle membranes similar to integral membrane proteins. Proteinase K treatment of the organelles shows that calpain I and II, calpastatin, and the regulatory subunit localize to the cytosolic surface of the organelle membranes, and a subset of calpain II and the regulatory subunit are also found within the lumen of these organelles. These results provide a new and novel explanation for how the calpain/calpastatin network is organized in the cell.     

Decreased expression of calpain and calpastatin mRNA during development is highly correlated with muscle protein accumulation in neonatal pigs

It is well known that rapid gain of muscle mass in neonatal pigs is highly related to protein synthesis. However, the role of protein degradation in muscle gain of the neonatal period has not been well established. Calpains and their endogenous inhibitors, calpastatins, play a significant role in early-stage myofibrillar protein degradation. To investigate the role of calpain–calpastatin system in muscle protein accumulation, we studied the expressions of their mRNA in muscle tissue sampled at days 1, 4, 6, 12, 20 and 28 from a total of 36 neonatal pigs. The steady-state mRNA levels of calpains 1A, 2 and 3A, calpastatin types 1, 2 and 3, obtained by quantitative real-time PCR analysis, decreased by 2–4 folds at the age of 4 to 6 days compared to 1-day-old piglets. Then, the relatively low expression level was maintained through 28 days of age. Expressions of calpains 1A, 3A and calpastatin type 1 were significantly correlated with the measurements of muscle protein accumulations such as muscle protein content and RNA/protein ratio. Expressions of calpain 1A, calpastatin types 1 and 3 were negatively correlated with birth weight and fractional rate of growth. The levels of calpains 1A and 2 mRNA were correspondent to their protease activities. In conclusion, decreased levels of calpain and calpastatin expressions over development in neonatal pigs are associated with high protein accumulations, suggesting that dramatic muscle growth during the neonatal period may be partially controlled by down-regulated calpain–calpastatin system.     

Calpain from rat intestinal epithelial cells: Age-dependent dynamics during cell differentiation

Micromolar and millimolar Ca²⁺-requiring neutral protease (calpain I and calpain II) along with their endogenous inhibitor calpastatin were isolated and partially purified from the same preparation of rat intestinal epithelial cells. Calpain I and II were partially purified by 1300 and 900-fold with 57 and 53 per cent yield, respectively. The optimum assay conditions revealed pH 7.5, 20 min incubation at 25° C and 0.24% casein substrate for both calpains. The optimum calcium concentration obtained for calpain I and II were 25 M and 4 mM, respectively. Distribution of rat intestinal epithelial cells calpain I and II along with calpastatin during cell differentiation stages in weanling to senescence age were studied. Calpain I in weanling rats was in an increasing order from villus to crypt regions. Adult rats indicated well expressed consistent calpain I throughout the differentiation stages. Whereas, significant lowering towards crypt region cells were evident in old rats. Calpain II in weanling and adult rats was found to be consistent throughout the differentiation stages. Old animals revealed an increasing trend from villus to crypt region with insignificant activity present in upper villus cells. Concomitantly, different concentrations of calpastatin were observed throughout the differentiation stages in all the age groups. Moreover, the levels of calpains exceeded that of calpastatin in most of the epithelial cell populations during developmental stages. In addition to casein, intestinal epithelial cell membranes were found to be equally good substrates for calpains. Proteolytic susceptibility of weanling, adult and old rat membrane proteins varied significantly all along the ageing process in rats. Simultaneous age-dependent calpastatin response were also evident. Taken together the results obtained provided strong evidence that calpain plays significant role in rat intestinal cell differentiation and ageing process with calpastatin as its specific regulatory protein.Abbreviations DEAE-cellulose O-(Diethylaminoethyl)-cellulose - EDTA Ethylene Diamine Tetra Acetic Acid - Tris Tris (hydroxymethyl) amino methane - KH₂PO₄ potassium dihydrogen orthophosphate - Na₂HPO₄ disodium hydrogen phosphate - CaCl₂ Calcium Chloride - TCA Trichloroacetic Acid - PMSF Phenylmethylsulfonyl Fluoride     

The Effects of Ce on the Proliferation, Osteogenic Differentiation and Mineralization Function of MC3T3-E1 Cells In Vitro

The effects of Ce on the proliferation, osteogenic differentiation and mineralization function of a murine preosteoblast cell line MC3T3-E1 in vitro were investigated at cell and molecular levels. The results showed that Ce promoted the proliferation, osteogenic differentiation and mineralization function of MC3T3-E1 cells at concentrations of 0.0001, 0.001, 0.01, 0.1 and 1???M, but turned to inhibit the proliferation, osteogenic differentiation and mineralization function at concentrations of 10, 100 and 1000???M. Ce displayed the up-regulation of Runx2, BMP2, ALP, BSP, Col I and OCN genes at concentrations of 0.0001 and 0.1???M; these genes were down-regulated in the MC3T3-E1 cells treated with 1000???M Ce. The expression of BMP2, Runx2 and OCN proteins was promoted by Ce at concentrations of 0.0001 and 0.1???M, but these proteins were down-regulated after 1000???M Ce treatment. The results suggest that Ce likely up-regulates or down-regulates the expression of Runx2, which subsequently up- or down-regulates OB marker genes Col I and BMP2 at early stages and ALP and OCN at later stages of differentiation, thus causing to promote or inhibit the proliferation, osteogenic differentiation and mineralization function of MC3T3-E1 cells.     

A facile synthesis of 5-thio-l-fucose and 5-thio-d-arabinose from d-arabinose

5-Thio-l-fucopyranose tetraacetate was synthesized in 11 steps from or d-arabinose diethyl dithioacetal by one-carbon elongation at C-5. Highly diastereo-selective addition of MeLi in ether to a derivative was achieved to give the corresponding 6-deoxy-β-d-altrofuranose isomer in good yield. A sulfur atom was introduced at C-5 of 6-deoxy-d-altrofuranose derivatives via substitution of a 5-tosylate with KSAc in HMPA with inversion of configuration, giving 5-thio-l-fucopyranose. A derivative was also prepared from 6-deoxy-β-d-altrofuranose derivatives. 5-Thio-d-arabinopyranose tetraacetate, the 5-demethyl analog of 5-thio-l-fucose, was also synthesized from in 5 steps. 5-Thio-d-arabinose showed weak inhibitory activity against α-l-fucosidase from bovine kidney (K_{i = 0.77 mM}).     

Protozoan predation on nitrification performance and microbial community during bioaugmentation

The effects of predation on nitrification performance and microbial community during bioaugmentation were investigated. Although most of the nitrification ability of the seed source was lost in the seeded reactors, bioaugmentation significantly enhanced the activity and community of the nitrifiers. The ammonium uptake rate (AUR) increased from 2.59 to 15.25 mg -N/L h and 2.88 to 13.36 mg -N/L h, and the nitrite uptake rate (NUR) increased from 0.80 to 4.02 mg -N/L h and 0.76 to 4.34 mg -N/L h for the reactors with and without protozoa inhibition, respectively. The population of nitrifiers increased, and the dominant nitrite oxidizing bacteria (NOB) transferred from Nitrospira to Nitrobacter. Predation had an evident influence on the microbial community of nitrifiers, especially the K-strategist, which was more vulnerable to predation than r-strategist during bioaugmentation due to its low growth rate. However, predation did not have a significant effect on the nitrification performance.     

Association of the calpain/calpastatin network with subcellular organelles

The calcium-activated cysteine protease calpain is intimately involved in modulating cell adhesion and migration. The two ubiquitous isoforms of this protease, calpain I and II, are considered to be cytosolic proteins that can translocate to both focal complexes/adhesions or the plasma membrane. Using confocal microscopy and isopycnic density centrifugation, the results demonstrate that calpain I and II, the 30kDa regulatory subunit, and calpastatin associate with the endoplasmic reticulum and Golgi apparatus. Confocal microscopy reveals that calpain II colocalizes with the subcellular proteins calnexin and Rab6 in cells bound to laminin. To further verify this association, cell lysates prepared from laminin stimulated and unstimulated cells were subjected to isopycnic density centrifugation. The results reveal an increased association of calpain I, II, calpastatin, and the 30kDa regulatory subunit with the endoplasmic reticulum and Golgi apparatus as evidenced by their position in the gradient relative to calnexin, Rab6, caveolin, and beta1 integrin after laminin stimulation. This correlates with the accumulation of inducible calpain activity at the endoplasmic reticulum-Golgi apparatus interface. Further experiments established that calpain II colocalizes with phosphatidylinositol 4,5-bisphosphate. Finally, calpain II associates with membrane lipid rafts. These results provide new insights into how the calpain/calpastatin network is spatially and temporally regulated in cells binding to the extracellular matrix.     

Calpain and calpastatin in myoblast differentiation and fusion: Effects of inhibitors

Myoblast differentiation and fusion to multinucleated muscle cells can be studied in myoblasts grown in culture. Calpain (Ca²⁺-activated thiol protease) induced proteolysis has been suggested to play a role in myoblast fusion. We previously showed that calpastatin (the endogenous inhibitor of calpain) plays a role in cell membrane fusion. Using the red cell as a model, we found that red cell fusion required calpain activation and that fusibility depended on the ratio of cell calpain to calpastatin. We found recently that calpastatin diminishes markedly in myoblasts during myoblast differentiation just prior to the start of fusion, allowing calpain activation at that stage; calpastatin reappears at a later stage (myotube formation). In the present study, the myoblast fusion inhibitors TGF-β, EGTA and calpeptin (an inhibitor of cysteine proteases) were used to probe the relation of calpastatin to myoblast fusion. Rat L8 myoblasts were induced to differentiate and fuse in serum-poor medium containing insulin. TGF-β and EGTA prevented the diminution of calpastatin. Calpeptin inhibited fusion without preventing diminution of calpastatin, by inhibiting calpain activity directly. Protein levels of μ-calpain and m-calpain did not change significantly in fusing myoblasts, nor in the inhibited, non-fusing myoblasts. The results indicate that calpastatin level is modulated by certain growth and differentiation factors and that its continuous presence results in the inhibition of myoblast fusion.     

Intracellular anion fluorescence assay for sodium/iodide symporter substrates

The sodium/iodide symporter (NIS) is primarily responsible for iodide accumulation in the thyroid gland for the synthesis of thyroid hormones; however, it can also transport other lyotropic anions in the thyroid gland and nonthyroid tissues. Some NIS substrates have important physiological or clinical roles, and others are environmental contaminants with health-related consequences. The aim of this study was to assess the utility of a yellow fluorescent protein variant, YFP–H148Q/I152L, as a biosensor to monitor the cellular uptake of NIS substrates, including thiocyanate (SCN⁻), nitrate (), chlorate (), perchlorate (), and perrhenate (). The fluorescence of purified YFP–H148Q/I152L was suppressed by anions with an order of potency of > = I⁻ = SCN⁻ = > ? Cl⁻. Anions also suppressed the fluorescence of YFP–H148Q/I152L expressed in FRTL-5, a thyroid cell line with high NIS expression. Quantitation of intracellular concentrations revealed differences among anions in the affinity and maximal velocity of NIS-mediated uptake as well as in the rate constant for passive efflux. These results suggest that YFP–H148Q/I152L can serve as an intracellular biosensor of NIS-transported anions and may be useful to study the physiology of endogenous anions as well as the health-related consequences of environmental anions.     

Inhibition by purine nucleotides of the release of reactive oxygen species from muscle mitochondria: indication for a function of uncoupling proteins as superoxide anion transporters

Release of reactive oxygen species (ROS), measured as the sum of hydrogen peroxide (H₂O₂) and superoxide anion radical (), from respiring rat heart and skeletal muscle mitochondria was significantly decreased by millimolar concentrations of GTP or GDP. Attempts to differentiate between the two forms of ROS showed that the release of rather than that of H₂O₂ was affected. Meanwhile, intramitochondrial ROS accumulation, measured by inactivation of aconitase, increased. These results suggest that guanine nucleotides inhibit the release of from mitochondria. As these nucleotides are known inhibitors of uncoupling proteins (UCPs), it is proposed that UCPs may function as carriers of , thus enabling its removal from the matrix compartment.     

Comprehensive inhibitor profiling of the Proteus mirabilis metalloprotease virulence factor ZapA (mirabilysin)

In this study we report for the first time the comprehensive inhibitor profiling of the Proteus mirabilis metalloprotease virulence factor ZapA (mirabilysin) using a 160 compound focused library of N-alpha mercaptoamide dipeptides, in order to map the and binding site preferences of this important enzyme. This study has revealed a preference for the aromatic residues tyrosine and tryptophan in and aliphatic residues in . From this library, six compounds were identified which exhibited sub- to low-micromolar K_i values. The most potent inactivator, SH–CO₂–Y–V–NH₂ was capable of preventing ZapA-mediated hydrolysis of heat-denatured IgA, indicating that these inhibitors may be capable of protecting host proteins against ZapA during colonisation and infection.     

Mutations at position 1122 in the catalytic domain of the mouse ras-specific guanine nucleotide exchange factor CDC25 originate both loss-of-function and gain-of-function proteins

The role of two residues within the catalytic domain of CDC25^Mm, a mouse ras-specific guanine nucleotide exchange factor (GEF), was investigated by site-directed mutagenesis. The function of the mutant proteins was tested in vivo in both a Saccharomyces cerevisiae cdc25 complementation assay and in a mammalian fos-luciferase assay, and in in vitro assays on human and yeast Ras proteins. Mutants CDC25 and CDC25 were shown to be (partly) inactive proteins, similar to their yeast homologs. Mutant CDC25 showed higher nucleotide exchange activity than the wild type protein on the basis of both in vitro and in vivo assays. Thus, alanine and valine substitutions at position 1122 within the GEF catalytic domain originate mutations with opposite biological properties, indicating an important role for position 1122 in GEF function.     

n-acylation of β-amino alcohol by acyl migration following enzyme-catalyzed esterification

Lipase-catalyzed n-acylations of β-amino alcohols such as ethanolamine and l-serine were investigated. To prepare n-acyl derivatives by taking advantage of the acyl migration, we first carried out a screening of suitable enzymes for the desired reaction. As a result, we found a higher activity for n-acylation with Lipase L. This lipase had higher hydrolytic activity for the o-acyl compound but not the n-acyl compound. The observation shows that n-acylation results from the esterification and successive acyl migration into the amino group. Using Lipase L, we then investigated the n-acylation of ethanolamine or l-serine with fatty acids as acyl donors. The reaction parameters for the n-acylation were clarified.     

Automated in-solution protein digestion using a commonly available high-performance liquid chromatography autosampler

The bleaching of the pyrogallol red (PGR) dye mediated by superoxide anion radicals () generated from the xanthine/xanthine oxidase system (X/XO) was studied by UV-visible spectrophotometry. The absorption band (at 540 nm) of PGR quickly decreased in the presence of X/XO, implying an efficient reaction of with PGR. The process was unaffected by catalase (CAT), but completely abolished by superoxide dismutase (SOD). A mechanism of the reaction involving the consumption of one PGR molecule by two to generate one molecule of H₂O₂ is proposed. PGR was used as a probe to estimate the rate of generation in redox cycling reactions of a series of nitro compounds mediated by rat liver microsomes. The consumption of PGR induced by the redox cycling of nitrofurantoin was totally eliminated by the addition of SOD but unaffected by CAT. The initial rate of consumption of PGR mediated by the redox cycling of others nitro derivatives follows the order:furazolidindione>nitrofurantoin>nifurtimox>benznidazole>chloramphenicol.We concluded that PGR can be used as a probe to estimate the release of from enzymatic systems or from the redox cycling of nitro compounds.     

Morphological and proteomic analysis of early stage of osteoblast differentiation in osteoblastic progenitor cells

Bone remodeling relies on a dynamic balance between bone formation and resorption, mediated by osteoblasts and osteoclasts, respectively. Under certain stimuli, osteoprogenitor cells may differentiate into premature osteoblasts and further into mature osteoblasts. This process is marked by increased alkaline phosphatase (ALP) activity and mineralized nodule formation. In this study, we induced osteoblast differentiation in mouse osteoprogenitor MC3T3-E1 cells and divided the process into three stages. In the first stage (day 3), the MC3T3-E1 cell under osteoblast differentiation did not express ALP or deposit a mineralized nodule. In the second stage, the MC3T3-E1 cell expressed ALP but did not form a mineralized nodule. In the third stage, the MC3T3-E1 cell had ALP activity and formed mineralized nodules. In the present study, we focused on morphological and proteomic changes of MC3T3-E1 cells in the early stage of osteoblast differentiation — a period when premature osteoblasts transform into mature osteoblasts. We found that mean cell area and mean stress fiber density were increased in this stage due to enhanced cell spreading and decreased cell proliferation. We further analyzed the proteins in the signaling pathway of regulation of the cytoskeleton using a proteomic approach and found upregulation of IQGAP1, gelsolin, moesin, radixin, and Cfl1. After analyzing the focal adhesion signaling pathway, we found the upregulation of FLNA, LAMA1, LAMA5, COL1A1, COL3A1, COL4A6, and COL5A2 as well as the downregulation of COL4A1, COL4A2, and COL4A4. In conclusion, the signaling pathway of regulation of the cytoskeleton and focal adhesion play critical roles in regulating cell spreading and actin skeleton formation in the early stage of osteoblast differentiation.     

The crystal and molecular structures of dichlorobis (5,7-diphenyl-1,2,4-triazolo[1,5-α]pyrimidine)zinc(II) (1) and dichlorobis(5,7-diphenyl-1,2,4-triazolo[1,5-α]pyrimidine)cobalt(II) (2)

The synthesis and structural studies of the new ligand 5,7-diphenyl-1,2,4-triazolo[1,5-α]pyrimidine (dptp), which can be considered as an analog of purine, and its complexes are described. Complexes were characterised by spectral measurements (IR, NMR, UV-Vis). In addition X-ray structural analysis was performed. Crystals of [Zn(C₁₇H₁₂N₄)₂Cl₂] (1) revealed the following parameters: M_r = 680.9; monoclinic for 2188 observed reflections. [Co(C₁₇H₁₂N₄)₂Cl₂] (2); M_r = 674.4; monoclinic for 1630 observed reflections.