Multiphysics model of a rat ventricular myocyte: A voltage-clamp study

Background

The objective of this study is to develop a comprehensive model of the electromechanical behavior of the rat ventricular myocyte to investigate the various factors influencing its contractile response.

Methods

Here, we couple a model of C a^{2 +} dynamics described in our previous work, with a well-known model of contractile mechanics developed by Rice, Wang, Bers and de Tombe to develop a composite multiphysics model of excitation-contraction coupling. This comprehensive cell model is studied under voltage clamp (VC) conditions, since it allows to focus our study on the elaborate C a^{2 +} signaling system that controls the contractile mechanism.

Results

We examine the role of various factors influencing cellular contractile response. In particular, direct factors such as the amount of activator C a^{2 +} available to trigger contraction and the type of mechanical load applied (resulting in isosarcometric, isometric or unloaded contraction) are investigated. We also study the impact of temperature (22 to 38°C) on myofilament contractile response. The critical role of myofilament C a^{2 +} sensitivity in modulating developed force is likewise studied, as is the indirect coupling of intracellular contractile mechanism with the plasma membrane via the N a⁺ /C a^{2 +} exchanger (NCX). Finally, we demonstrate a key linear relationship between the rate of contraction and relaxation, which is shown here to be intrinsically coupled over the full range of physiological perturbations.

Conclusions

Extensive testing of the composite model elucidates the importance of various direct and indirect modulatory influences on cellular twitch response with wide agreement with measured data on all accounts. Thus, the model provides mechanistic insights into whole-cell responses to a wide variety of testing approaches used in studies of cardiac myofilament contractility that have appeared in the literature over the past several decades.

     

Deficiency of the BMP Type I receptor ALK3 partly protects mice from anemia of inflammation

Background

Inflammatory stimuli induce the hepatic iron regulatory hormone hepcidin, which contributes to anaemia of inflammation (AI). Hepcidin expression is regulated by the bone morphogenetic protein (BMP) and the interleukin-6 (IL-6) signalling pathways. Prior results indicate that the BMP type I receptor ALK3 is mainly involved in the acute inflammatory hepcidin induction four and 72 h after IL-6 administration. In this study, the role of ALK3 in a chronic model of inflammation was investigated. The intact, heat-killed bacterium Brucella abortus (BA) was used to analyse its effect on the development of inflammation and hypoferremia in mice with hepatocyte-specific Alk3-deficiency (Alk3^fl/fl; Alb-Cre) compared to control (Alk3^fl/fl) mice.

Results

An iron restricted diet prevented development of the iron overload phenotype in mice with hepatocyte-specific Alk3 deficiency. Regular diet leads to iron overload and increased haemoglobin levels in these mice, which protects from the development of AI per se. Fourteen days after BA injection Alk3^fl/fl; Alb-Cre mice presented milder anaemia (Hb 16.7 g/dl to 11.6 g/dl) compared to Alk3^fl/fl control mice (Hb 14.9 g/dl to 8.6 g/dl). BA injection led to an intact inflammatory response in all groups of mice. In Alk3^fl/fl; Alb-Cre mice, SMAD1/5/8 phosphorylation was reduced after BA as well as after infection with Staphylococcus aureus. The reduction of the SMAD1/5/8 signalling pathway due to hepatocyte-specific Alk3 deficiency partly suppressed the induction of STAT3 signalling.

Conclusion

The results reveal in vivo, that 1) hepatocyte-specific Alk3 deficiency partly protects from AI, 2) the development of hypoferremia is partly dependent on ALK3, and 3) the ALK3/BMP/hepcidin axis may serve as a possible therapeutic target to attenuate AI.

     

RNA Polymerase III of <Emphasis Type="Italic">Blastocladiella emersonii</Emphasis> is Mitochondrial

MULTIPLE RNA polymerases have been shown to exist in a wide variety of eukaryotic organisms^1–5. Two nuclear polymerases have been found in all the cells studied, each with a specific location and a specific function: the DEAE fraction I enzyme is located in the nucleolus and may be involved in the synthesis of ribosomal RNA^1,2,5,6; the DEAE fraction II enzyme is located in the non-nucleolar nucleoplasm and functions in the synthesis of DNA-like RNA^2–5,7. The DEAE fraction III enzyme was reported to exist in sea urchin¹, the aquatic fungus B. emersonii⁵ and to be present sometimes in rat liver preparations^1,8. Although there have been some reports that polymerase III is nuclear, Horgen and Griffin⁵ showed that the enzyme was sensitive to the prokaryotic RNA polymerase inhibitor rifampicin. They suggested that the fraction III enzyme may be mitochondrial, formed as the result of organelle contamination in their crude nuclear preparations. The results of this study show that the DEAE fraction III enzyme in B. emersonii is a mitochondrial enzyme, most likely functioning in the synthesis of mitochondrial RNA. The rifampicin sensitivity of the enzyme is further evidence of a prokaryotic origin of mitochondria^9,10.     

M3 cholinoreceptors alter electrical activity of rat left atrium via suppression of L-type Ca<Superscript>2+</Superscript> current without affecting K<Superscript>+</Superscript> conductance

Electrophysiological effects produced by selective activation of M3 cholinoreceptors were studied in isolated left atrium preparations from rat using the standard sharp glass microelectrode technique. The stimulation of M3 receptors was obtained by application of muscarinic agonist pilocarpine (10^?5 M) in the presence of selective M2 antagonist methoctramine (10^?7 M). Stimulation of M3 receptors induced marked reduction of action potential duration by 14.4 ± 2.4% and 16.1 ± 2.5% of control duration measured at 50 and 90% of repolarization, respectively. This effect was completely abolished by selective M3 blocker 4-DAMP (10^?8 M). In isolated myocytes obtained from the rat left atrium, similar pharmacological stimulation of M3 receptors led to suppression of peak L-type calcium current by 13.9 ± 2.6% of control amplitude (measured at +10 mV), but failed to affect K⁺ currents I _to, I _Kur, and I _Kir. In the absence of M2 blocker methoctramine, pilocarpine (10^?5 M) produced stronger attenuation of I _CaL and induced an increase in I _Kir. This additive inward rectifier current could be abolished by highly selective blocker of K_ir3.1/3.4 channels tertiapin-Q (10^?6 M) and therefore was identified as I _KACh. Thus, in the rat atrial myocardium activation of M3 receptors leads to shortening of action potentials via suppression of I _CaL, but does not enhance the major potassium currents involved in repolarization. Joint stimulation of M2 and M3 receptors produces stronger action potential shortening due to M2-mediated activation of I _KACh.     

Lipophilic gold(I) complexes with 1,3,4-oxadiazol-2-thione or 1,3-thiazolidine-2-thione moieties: synthesis and their cytotoxic and antimicrobial activities

Novel lipophilic gold(I) complexes containing 1,3,4-oxadiazol-2-thione or 1,3-thiazolidine-2-thione derivatives were synthesized and characterized by IR, high resolution mass spectrometry, and ¹H, ¹³C ³¹P NMR. The cytotoxicity of the compounds was evaluated considering cisplatin and/or auranofin as reference in different tumor cell lines: colon cancer (CT26WT), metastatic skin melanoma (B16F10), breast adenocarcinoma (MCF-7), cervical carcinoma (HeLa), glioblastoma (M059 J). Normal human lung fibroblasts (GM07492-A) and kidney normal cell (BHK-21) were also evaluated. The gold(I) complexes were more active than their respective free ligands and cisplatin. Furthermore, antibacterial activity was evaluated against Gram-positive bacteria Staphylococcus aureus ATCC 25213, Staphylococcus epidermidis ATCC 12228 and Gram-negative bacteria Escherichia coli ATCC 11229 and Pseudomonas aeruginosa ATCC 27853 and expressed as the minimum inhibitory concentration (MIC). The complexes exhibited lower MIC values when compared to the ligands and chloramphenicol against Gram-positive bacteria and Gram-negative bacteria. Escherichia coli was sensitive one to the action of gold(I) complexes.     

Cloning,purification and characterization of a cellulase-free xylanase from <Emphasis Type="Italic">Geobacillus thermodenitrificans</Emphasis> AK53

Geobacillus thermodenitrificans AK53 xyl gene encoding xylanase was isolated, cloned and expressed in Escherichia coli. After purifying recombinant xylanase from G. thermodenitrificans AK53 (GthAK53Xyl) to homogeneity by ammonium sulfate precipitation and ion exchange chromatography, biochemical properties of the enzyme were determined. The kinetic studies for GthAK53Xyl showed K_M value to be 4.34 mg/mL (for D-xylose) and V_max value to be 2028.9 μmoles mg^–1 min^–1. The optimal temperature and pH for enzyme activity were found out to be 70°C and 5.0, respectively. The expressed protein showed the highest sequence similarity with the xylanases of G. thermodenitrificans JK1 (JN209933) and G. thermodenitrificans T-2 (EU599644). Metal cations Mg²⁺ and Mn²⁺ were found to be required for the enzyme activity, however, Co²⁺, Hg²⁺, Fe²⁺ and Cu²⁺ ions caused inhibitor effect on it. GthAK53Xyl had no cellulolytic activity and degraded xylan in an endo-fashion. The action of the enzyme on xylan from oat spelt produced xylobiose and xylopentose. The reported results are suggestive of a xylanase exhibiting desirable kinetics, stability parameters and metal resistance required for the efficient production of xylobiose at industrial scale.     

Enzymatic depolymerization of <Emphasis Type="Italic">N</Emphasis>-succinylchitosan

A complex of chitinolytic enzymes of Streptomyces kurssanovii and also lysozyme and Celloviridin, an industrial cellulase preparation, were demonstrated to provide for an enzymatic hydrolysis of N-succinylchitosan. Our studies were carried out on a high-molecular N-succinylchitosan with M of 390 kDa and a substitution degree of 0.8 as a substrate. All the enzymatic preparations were shown to be suitable for the obtaining of low-molecular derivatives of N-succinylchitosan. The complex of enzymes from S. kurssanovii showed the greatest activity: they reduced the characteristic viscosity of initial solution of the substrate by 78% for 30 min. A biodegradation of N-succinylchitosan of various molecular masses was shown to proceed under the action of lysozyme, and the cleavage reaction was revealed to decelerate at a decrease of the polymer molecular mass. A use of N-succinylchitosan in a complex with drugs for a prolongation of their action in a live organism was presumed.     

Association analysis of alcohol metabolizing enzymes <Emphasis Type="Italic">ADH1B,ADH7, CYP2E1</Emphasis> gene polymorphism with risk for coronary atherosclerosis

The allele and genotype distribution of two alcohol dehydrogenase genes ADH1B (exon 3 polymorphism A/G (47His)), ADH7 (intron 5 polymorphism G/C) and cytochrome P450 2E1 gene (CYP2E1; 5′-flanking region G/C and intron 6 T/A polymorphisms) were examined in Russian (Tomsk, n = 125) healthy population and in coronary atherosclerosis patients (CA, n = 92). The genotype frequencies followed the Hardy-Weinberg equilibrium and the alleles were in linkage equilibrium or gametic equilibrium in the control sample. Only two CYP2E1 gene polymorphisms were in linkage disequilibrium. The frequencies of the derived alleles at ADH1B ^* G (+MslI) allele, CYP2E1 ^* C2 (+PstI) allele and CYP2E1 ^* C (-DraI) allele were 8.48 ± 1.86, 1.20 ± 0.69, and 10.00 ± 1.90%, respectively. The ADH7 gene polymorphism showed a high level of heterozygosity; the frequency of the ADH7 ^* C (-StyI) allele was 44.58 ± 3.21%. A significantly higher frequency of CYP2E1 PstI C2 allele has been revealed in the CA group (P = 0.043; OR = 4.23; 95% CI 1.03–20.01). The tendency to significant effect of A1A2 genotype in ADH1B MslI polymorphism was observed for systolic blood pressure in the control group (P = 0.068). The statistically significant two-way interaction effects of ADH7 StyI and CYP2E1 DraI on diastolic blood pressure (P = 0.029) and on the serum high density lipoprotein level (P = 0.042) were also revealed. Association of A1A2 genotype in ADH1B MslI polymorphism with reduced amount in a serum of a very low density lipoprotein level (P = 0.045) have also been shown. This may result from multifunctional activity of alcohol metabolizing enzymes and their involvement in many metabolic and free radical reactions in the body.     

Bifunctional recombinant cellulase–xylanase (rBhcell-xyl) from the polyextremophilic bacterium <Emphasis Type="Italic">Bacillus halodurans</Emphasis> TSLV1 and its utility in valorization of renewable agro-residues

The thermostable bifunctional CMCase and xylanase encoding gene (rBhcell-xyl) from Bacillus halodurans TSLV1 has been expressed in Escherichia coli. The recombinant E. coli produced rBhcell-xyl (CMCase 2272 and 910 U L^?1 xylanase). The rBhcell-xyl is a ~62-kDa monomeric protein with temperature and pH optima of 60 °C and 6.0 with T_1/2 of 7.0 and 3.5 h at 80 °C for CMCase and xylanase, respectively. The apparent K _m values (CMC and Birchwood xylan) are 3.8 and 3.2 mg mL^?1. The catalytic efficiency (k _cat/K _m ) values of xylanase and CMCase are 657 and 171 mL mg^?1 min^?1, respectively. End-product analysis confirmed that rBhcell-xyl is a unique endo-acting enzyme with exoglucanase activity. The rBhcell-xyl is a GH5 family enzyme possessing single catalytic module and carbohydrate binding module. The action of rBhcell-xyl on corn cobs and wheat bran liberated reducing sugars, which can be fermented to bioethanol and fine biochemicals.     

Deciphering the mode of action,structural and biochemical analysis of heparinase II/III (<Emphasis Type="Italic">Ps</Emphasis>PL12a) a new member of family 12 polysaccharide lyase from <Emphasis Type="Italic">Pseudopedobacter saltans</Emphasis>

Heparinases are widely used for production of clinically and therapeutically important bioactive oligosaccharides and in analyzing the polydisperse, heterogeneous, and complex structures of heparin/heparan sulfate. In the present study, the gene (1911 bp) encoding heparinase II/III of family 12 polysaccharide lyase (PsPL12a) from Pseudopedobacter saltans was cloned, expressed, and biochemically and functionally characterized. The purified enzyme PsPL12a of molecular size approximately 76 kDa exhibited maximum activity in the temperature range 45–50 °C and at pH 6.0. PsPL12a gave maximum activity at 1% (w/v) heparin under optimum conditions. The kinetic parameters, K _m and V_max, for PsPL12a were 4.6?±?0.5 mg/ml and 70?±?2 U/mg, respectively. Ten millimolars of each Mg²⁺ and Mn²⁺ ions enhanced PsPL12a activity by 80%, whereas Ni²⁺ inhibited by 75% and Co²⁺ by 10%, and EDTA completely inactivated the enzyme. Protein melting curve of PsPL12a gave a single peak at 55 °C and 10 mM Mg²⁺ ions and shifted the peak to 60 °C. The secondary structure analysis of PsPL12a by CD showed 65.12% α-helix, 11.84% β-strand, and 23.04% random coil. The degradation products of heparin by PsPL12a analyzed by ESI-MS spectra displayed peaks corresponding to heparin di-, tetra-, penta-, and hexa-saccharides revealing the endolytic mode of enzyme action. Heparinase II/III (PsPL12a) from P. saltans can be used for production of low molecular weight heparin oligosaccharides for their utilization as anticoagulants. This is the first report on heparinase cloned from P. saltans.     

Structural organization characteristics of the <Emphasis Type="Italic">DIP1</Emphasis> gene in <Emphasis Type="Italic">Drosophila melanogaster</Emphasis> strains mutant for the <Emphasis Type="Italic">flamenco</Emphasis> gene

Molecular cloning of the DIP1 gene located in the 20A4-5 region has been performed from the following strains with the flamenco phenotype: flam ^SS (SS) and flam ^MS (MS) characterized by a high transposition rate of retrotransposon gypsy (mdg4), flam ^{py + (P)} carrying the insertion of a construction based on the P element into the region of the flamenco gene, and flamenco ⁺. The results of restriction analysis and sequencing cloned DNA fragments has shown that strains flam ^SS , flam ^MS considerably differ from flam ^{py + (P)}, and flamenco ⁺ in the structure of DIP1. Strains flam ^SS and flam ^MS have no DraI restriction site at position 1765 in the coding region of the gene, specifically, in the domain determining the signal of the nuclear localization of the DIP1 protein. This mutation has been found to consist in a nucleotide substitution in the recognition site of DraI restriction endonuclease, which is transformed from TTTAAA into TTTAAG and, hence, is not recognized by the enzyme. This substitution changes codon AAA into AAG and is translationally insignificant, because both triplets encode the same amino acid, lysine. The DIP1 gene of strains flam ^SS and flam ^MS has been found to contain a 182-bp insertion denoted IdSS (insertion in DIP1 strain SS); it is located in the second intron of the gene. The IdSS sequence is part of the open reading frame encoding the putative transposase of the mobile genetic element HB1 belonging to the Tc1/mariner family. This insertion is presumed to disturb the conformations of DNA and the chromosome, in particular, by forming loops, which alters the expression of DIP1 and, probably, neighboring genes. In strains flamenco ⁺ and flam ^{py + (P)}, the IdSS insertion within the HB1 sequence is deleted. The deletion encompasses five C-terminal amino acid residues of the conserved domain and the entire C-terminal region of the putative HB1 transposase. The obtained data suggest that DIP1 is involved in the control of gypsy transpositions either directly or through interaction with other elements of the genome.     

Race Research and the Ethics of Belief

On most accounts, beliefs are supposed to fit the world rather than change it. But believing can have social consequences, since the beliefs we form underwrite our actions and impact our character. Because our beliefs affect how we live our lives and how we treat other people, it is surprising how little attention is usually given to the moral status of believing apart from its epistemic justification. In what follows, I develop a version of the harm principle that applies to beliefs as well as actions. In doing so, I challenge the often exaggerated distinction between forming beliefs and acting on them.¹ After developing this view, I consider what it might imply about controversial research the goal of which is to yield true beliefs but the outcome of which might include negative social consequences. In particular, I focus on the implications of research into biological differences between racial groups.     

Construction of flavocytochrome <Emphasis Type="Italic">b</Emphasis><Subscript>2</Subscript>-overproducing strains of the thermotolerant methylotrophic yeast <Emphasis Type="Italic">Hansenula polymorpha</Emphasis> (<Emphasis Type="Italic">Pichia angusta</Emphasis>)

L-Lactate cytochrome c oxidoreductase (flavocytochrome b ₂, FC b ₂) from the thermotolerant methylotrophic yeast Hansenula polymorpha (Pichia angusta) is, unlike the enzyme form baker’s yeast, a thermostable enzyme potentially important for bioanalytical technologies for highly selective assays of L-lactate in biological fluids and foods. This paper describes the construction of flavocytochrome b ₂ producers with over-expression of the H. polymorpha CYB2 gene, encoding FC b ₂. The HpCYB2 gene under the control of the strong H. polymorpha alcohol oxidase promoter in a plasmid for multicopy integration was transformed into the recipient strain H. polymorpha C-105 (grc1 catX), impaired in glucose repression and devoid of catalase activity. A method was developed for preliminary screening of the transformants with increased FC b ₂ activity in permeabilized yeast cells. The optimal cultivation conditions providing for the maximal yield of the target enzyme were found. The constructed strain is a promising FC b ₂ producer characterized by a sixfold increased (to 3 μmol min^?1 mg^?1 protein in cell-free extract) activity of the enzyme.     

Preparation and catalytic properties of trypsin immobilized on cryogels of polyvinyl alcohol

Commercial preparations of trypsin, varying in activity, were immobilized on a cryogel of polyvinyl alcohol, activated by dialdehydes (terephthalic, succinic, or glutaric) or divinyl sulfone. All preparations of the immobilized enzyme exhibited hydrolytic activity and retained stability for 8 months. In organic media, specimens of immobilized trypsin catalyzed the synthesis of N-carbobenzoxy-L-phenylalanyl-L-arginyl-L-leucine p-nitroanilide from N-carbobenzoxy-L-phenylalanyl-L-arginine methyl ester (or N-carbobenzoxy-L-phenylalanyl-L-arginine) and L-leucine p-nitroanilide, as well as the formation of N-carbobenzoxy-L-alanyl-L-alanyl-L-arginyl-L-phenylalanine p-nitroanilide from N-carbobenzoxy-L-alanyl-L-alanyl-L-arginine and L-phenylalanine p-nitroanilide. The presence of small amounts of water in organic solvents was prerequisite to the biocatalysts manifesting synthase activity in reactions of peptide bond formation.     

Elevated expression of p53 in early colon polyps in a pig model of human familial adenomatous polyposis

Familial adenomatous polyposis (FAP) is a hereditary predisposition to formation of colon polyps that can progress to colorectal cancer (CRC). The severity of polyposis varies substantially within families bearing the same germline mutation in the adenomatous polyposis coli (APC) tumour suppressor gene. The progressive step-wise accumulation of genetic events in tumour suppressor genes and oncogenes leads to oncogenic transformation, with driver alterations in the tumour protein p53 (TP53) gene playing a key role in advanced stage CRC. We analysed groups of pigs carrying a truncating mutation in APC (APC^1311/+; orthologous to human APC^1309/+) to study the influence of TP53 polymorphisms and expression on the frequency of polyp formation and polyp progression in early-stage FAP. Five generations of APC^1311/+ pigs were examined by colonoscopy for polyposis severity and development. A total of 19 polymorphisms were found in 5′-flanking, coding, and 3′ untranslated regions of TP53. The distribution of TP53 genotypes did not differ between APC^1311/+ pigs with low (LP) and high (HP) number of colon polyps. p53 mRNA expression was analysed in distally located normal mucosa samples of wild-type pigs, APC^1311/+ LP and HP pigs, and also in distally located polyp samples histologically classified as low-grade (LG-IEN) and high-grade intraepithelial dysplastic (HG-IEN) from APC^1311/+ pigs. p53 mRNA expression was found to be significantly elevated in HG-IEN compared to LG-IEN samples (p?= 0.012), suggesting a role for p53 in the early precancerous stages of polyp development.     

Carbenicillin as Inhibitor of β-Lactamase from <Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis>

CARBENICILLIN was produced as a new, semi-synthetic penicillin with antibacterial activity against Pseudomonas aeruginosa and some other microorganisms¹, but this compound was known to be destroyed by staphylococcal penicillinase². Newsom et al.³ described the substrate profile of a constitutive β-lactamase from one strain of Pseudomonas aeruginosa and reported the hydrolysis of carbenicillin at a rate higher than benzylpenicillin. When compared with the inducible enzyme described by Sabath et al.⁴, it differed both in the substrate profile and the ability to hydrolyse carbenicillin. Lack of activity of the inducible enzyme on carbenicillin was also reported by Garber and Friedman⁵ when studying eight strains of Pseudomonas aeruginosa. Sykes and Richmond⁶ were able to identify three types of β-lactamases among fifty-six strains of Pseudomonas aeruginosa according to induci-bility, substrate profile and activity on carbenicillin. Type I (Sabath et al.⁴) was inducible, highly active on cephaloridine and showed no activity on carbenicillin. Types II (Sykes and Richmond⁷) and III (Newsom et al.³) were constitutive and inactivated carbenicillin at different rates. Only the constitutive enzymes conferred resistance towards carbenicillin. We have investigated the activity on carbenicillin of β-lactamases from strains of Pseudomonas aeruginosa isolated from clinical specimens. Activity on benzylpenicillin and cephaloridine was also studied.     

Apoptotic Endonuclease EndoG Induces Alternative Splicing of Telomerase TERT Catalytic Subunit,Caspase-2, DNase I,and BCL-x in Human,Murine, and Rat CD4<Superscript>+</Superscript> T Lymphocytes

Apoptotic endonuclease EndoG plays a key role in the alternative splicing of mRNA of human TERT telomerase catalytic subunit. The aim of this work was to test the ability of EndoG to induce alternative splicing of mRNA of other genes and in other organisms. To determine new mRNA splice-variants, EndoG overexpression was induced in human, mouse and rat CD4⁺-T-lymphocytes followed by sequencing of total RNA of these cells. Sequencing results showed that besides TERT, EndoG induced alternative splicing of deoxyribonuclease I (DNase I), caspase-2 (Casp-2) and BCL-x. The expression level of EndoG strongly correlated with mRNA splicing-variants of TERT, DNase I, Casp-2, and BCL-x in intact CD4⁺-T cells of healthy donors as well as different lines of mice and rats. EndoG overexpression induced down-regulation of fulllength mRNAs of TERT, DNase I, Casp-2, and BCL-x and up-regulation of their short-length mRNAs. Alternative splicing of studied mRNAs resulted in down-regulation of enzymatic activity of proteins in vitro and in vivo. The results of this work confirm the ability of endonuclease EndoG to induce alternative splicing of several mRNAs in human, mice and rats.     

Sex differences in the development of vascular and renal lesions in mice with a simultaneous deficiency of <Emphasis Type="Italic">Apoe</Emphasis> and the integrin chain <Emphasis Type="Italic">Itga8</Emphasis>

Background

Apoe-deficient (Apoe ^?/?) mice develop progressive atherosclerotic lesions with age but no severe renal pathology in the absence of additional challenges. We recently described accelerated atherosclerosis as well as marked renal injury in Apoe ^?/? mice deficient in the mesenchymal integrin chain Itga8 (Itga8 ^?/?). Here, we used this Apoe ^?/?, Itga8 ^?/? mouse model to investigate the sex differences in the development of atherosclerosis and concomitant renal injury. We hypothesized that aging female mice are protected from vascular and renal damage in this mouse model.

Methods

Apoe ^?/? mice were backcrossed with Itga8 ^?/? mice. Mice were kept on a normal diet. At the age of 12 months, the aortae and kidneys of male and female Apoe ^?/? Itga8 ^+/+ mice or Apoe ^?/? Itga8 ^?/? mice were studied. En face preparations of the aorta were stained with Sudan IV (lipid deposition) or von Kossa (calcification). In kidney tissue, immunostaining for collagen IV, CD3, F4/80, and PCNA and real-time PCR analyses for Il6, Vegfa, Col1a1 (collagen I), and Ssp1 (secreted phosphoprotein 1, synonym osteopontin) as well as ER stress markers were performed.

Results

When compared to male mice, Apoe ^?/? Itga8 ^+/+ female mice had a lower body weight, equal serum cholesterol levels, and lower triglyceride levels. However, female mice had increased aortic lipid deposition and more aortic calcifications than males. Male Apoe ^?/? mice with the additional deficiency of Itga8 developed increased serum urea, glomerulosclerosis, renal immune cell infiltration, and reduced glomerular cell proliferation. In females of the same genotype, these renal changes were less pronounced and were accompanied by lower expression of interleukin-6 and collagen I, while osteopontin expression was higher and markers of ER stress were not different.

Conclusions

In this model of atherosclerosis, the female sex is a risk factor to develop more severe atherosclerotic lesions, even though serum fat levels are higher in males. In contrast, female mice are protected from renal damage, which is accompanied by attenuated inflammation and matrix deposition. Thus, sex affects vascular and renal injury in a differential manner.

     

Antirestriction and antimodification activities of T7 Ocr: Effects of amino acid substitutions in the interface

The T7 antirestriction protein Ocr, encoded by 0.3 (ocr), specifically inhibits ATP-dependent type I restriction-modification systems. T7 0.3 (ocr) was cloned in pUC18. Ocr inhibited both restriction and modification activities of the type I restriction-modification system (EcoKI) in Escherichia coli K12. The Ocr F53D A57E mutant was obtained and proved to inhibit only restriction activity of EcoKI. The 0.3 (ocr) and Photorhabdus luminescens luxCDABE genes were cloned in pZ-series vectors with the P _ltetO-1 promoter, strongly controlled by the TetR repressor. The bioluminescence intensity and luciferase content varied up to 5000-fold in E. coli K12 MG1655Z1 tetR⁺ (pZE21-luxCDABE) cells, depending on the environmental concentration of the inductor anhydrotetracycline. The antirestriction activity of Ocr and Ocr F53D A57E was studied as a function of their concentration in the cell. The dissociation constant K _d, characterizing the binding with EcoKI, differed 1000-fold between Ocr and Ocr F53D A57E (10^?10 M versus 10^?7 M).