TMEM43-S358L mutation enhances NF-κBTGFp signal cascade in arrhythmogenic right ventricular dysplasia/cardiomyopathy

Arrhythmogenic right ventricular dysplasia/cardiomyopathy(ARVD/C)is a genetic cardiac muscle disease that accounts for approximately 30%sudden cardiac death in young adults.The Ser358Leu mutation of transmembrane protein 43(TMEM43)was commonly identified in the patients of highly lethal and fully penetrant ARVD subtype,ARVD5.Here,we generated TMEM43 S358L mouse to explore the underlying mechanism.This mouse strain showed the classic patholo.gies of ARVD patients,including structural abnormalities and cardiac fibrofatty.TMEM43 S358L mutation led to hyper-activated nuclear factor kB(NFkB)activation in heart tissues and primary cardiomy.ocyte cells.Importantly,this hyper activation of NF-κB directly drove the expression of pro-fibrotic gene,transforming growth factor beta(TGFβ),and enhanced downstream signal,indicating that TMEM43 S358L mutation up-regulates NF-κB-TGFβ signal cascade during ARVD cardiac fibrosis.Our study partially reveals the regulatory mechanism of ARVD development.     

基因芯片技术检测拉美夫定相关的HBV变异

In order to study the feasibility of gene chips technology in the detection of HBV mutation associated with lamivudine, we detected the mutation of HBV in peripheral blood of 30 patients treated with lamivudine for at least half a year by gene chips. The result was compared with that from direct sequencing. Both results are highly coincident. The rate reaches 100% while detecting single strain of virus infection, and 85% in multi-strains virus infection. Gene chip technology is quite valuable and practical in future clinic.     

Correlation between BRAF~(V600E) mutation and clinicopathological features in pediatric papillary thyroid carcinoma

In adults, the presence of the BRAF~(V600E) mutation in papillary thyroid cancer(PTC) has been demonstrated to be strongly associated with aggressive cancer-cell characteristics and poor patient prognosis. In contrast, the frequency of this mutation in pediatric PTC has undergone limited study, and the few available estimates range from 0 to 63%. Furthermore, the role of the BRAF~(V600E) mutation in pediatric PTC is controversial; thus, the present study aimed to investigate the prevalence and role of the BRAF~(V600E) mutation in48 pediatric patients with PTC, aged 3–13 years. Of these patients, 41 were diagnosed with classic PTC, five were found to have a follicular variant of PTC, and two to exhibit a diffuse sclerosing PTC variant. The BRAF~(V600E) mutation was identified to be present in 35.4% of the 48 analyzed patients, and in 41.5% of the patients diagnosed with classical PTC. Furthermore, the presence of the BRAF~(V600E) mutation was found to be associated with a patient age at diagnosis of less than ten years(P=0.011), the performance of a thyroidectomy(P=0.03), exhibited tumor multifocality(P=0.02) and/or extra-thyroidal invasion(P=0.003), and both a low MACIS(Metastases, Age, Completeness of resection, Invasion, Size)(P=0.036) and AMES(Age, Metastasis, Extent of tumor,Size)(P=0.001)score. Together, these data suggest that the presence of the BRAF~(V600E) mutation may be negatively correlated with partial aggressive clinicopathological features of pediatric PTC.     

大肠癌中p53基因突变的研究

应用聚合酶链反应(PCR)──单链构型多态性(SSCP)结合银染法对14例大肠癌p53基因的第4、第5─6和第7外显子进行了点突变的研究,结果共检测出6例点突变,而且发现各外显子的突变频率存在差异。另外,利用购自ATCC的两个探针 (p53cDNA探针和pYNZ22探针)对大肠癌中p53基因的杂合性失去进行了研究,在14例大肠癌中共检出6例杂合性丢失。将点突变检测结果同杂合性丢失结果进行比较分析, 并着重探讨了大肠癌中p53基因失活导致肿瘤的作用方式。 Abstract:The exons 4-7 of p53 gene were examined in 14 colorectal Cancer patients by using PCR-SSCP-silver staining method.The results showed 6 cases of point mutation and the mutation frequencies of exons were different from each other.p53 cDNA and pYNZ22 VNTR were used as probes to examine LOH(Loss of heterozygosity)of 14 colorectal cancers.6 cases with LOH were found.The results of present research suggest that mutation and LOH of p53 gene are critical events in the progress and development of Cancer.There were different kinds of inactivation model of p53 gene in the process of development of cancer and transformation of cells.     

A Novel Missense Mutation （L^296Q） in Cholesteryl Ester Transfer Protein Gene Related to Coronary Heart Disease

Cholesteryl ester transfer protein (CETP) is a key participant in the reverse transport of cholesterol from the peripheral tissues to the liver. To understand the role that CETP gene plays in the pathogenesis of coronary heart disease (CHD) , the promoter region, all 16 exons and adjacent intronic regions of CETP gene were screened for single nucleotide polymorphisms (SNPs) in 203 CHD patients and 209 controls by a combination of PCR, denaturing high performance liquid chromatography (DHPLC), molecular cloning, and DNA sequencing. A novel missense mutation in the CETP gene was identified. This mutation (L296Q) was a T-to-A conversion at codon 296 of exon 10 which replaced the codon for leucine (CTG) with the codon for glutamine (CAG). Association study revealed that L296Q mutation was associated with CHD with a significantly higher mutant allele frequency in the CHD patients than that in the controls (0. 160 vs. 0.091,x2= 9.014, P = 0.003), and that the odds ratio for the development of CHD was 1.83 for     

Preliminary investigation of sequence-independent DNA binding proteins in rat skeletal muscle sarcoplasmic reticulum and their function

To observe the binding of plasmid DNA to non-nuclear DNA binding proteins in sar-coplasmic reticulum (SR) and the effects of this binding on SR function, sarcoplasmic reticulum proteins in rat skeletal muscle were isolated by differential centrifuge and sucrose density-gradient centrifuge. The results showed that there are two sequence-independent DNA binding proteins in SR proteins, the molecular weights of which are 83 and 58 ku, respectively. Ca2 uptake and release of SR were remarkably promoted by the binding of plasmid DNA to DNA binding proteins in SR, the mechanism is probably through increasing of Ca2 -ATPase activity in SR and changing of character of Ca2 release channel ryanodine receptors induced by the binding. These results suggest that there exist DNA binding proteins in SR and its binding to DNA may affect Ca2 transport of SR.     

Prevalence and evolution of drug resistance HIV-1 variants in Henan, China

To understand the prevalence and evolution of drug resistant HIV strains in Henan China after the implementation of free antiretroviral therapy for AIDS patients. 45 drug naive AIDS patients, 118 AIDS patients who received three months antiretroviral therapy and 124 AIDS patients who received six months antiretroviral treatment were recruited in the southern part of Henan province. Information on general condition, antiretroviral medicines, adherence and clinical syndromes were collected by face to face interview. Meanwhile, 14ml EDTA anticoagulant blood was drawn. CD4/CD8 T cell count, viral load and genotypic drug resistance were tested. The rates of clinical improvement were 55.1% and 50.8% respectively three months and six months after antiretroviral therapy. The mean CD4 cell count after antiretroviral therapy was significantly higher than in drug naive patients. The prevalence rate of drug resistant HIV strains were 13.9%, 45.4% and 62.7% in drug naive patients, three month treatment patients and six month treatment patients, respectively. The number of resistance mutation codons and the frequency of mutations increased significantly with continued antiretroviral therapy. The mutation sites were primarily at the 103, 106 and 215 codons in the three-month treatment group and they increased to 15 codon mutations in the six-month treatment group. From this result, the evolution of drug resistant strains was inferred to begin with the high level NNRTI resistant strain, and then develop low level resistant strains to NRTIs. The HIV strains with high level resistance to NVP and low level resistance to AZT and DDI were highly prevalent because of the AZT＋DDI＋NVP combination therapy. These HIV strains were also cross resistant to DLV, EFV, DDC and D4T. Poor adherence to therapy was believed to be the main reason for the emergence and prevalence of drug resistant HIV strains. The prevalence of drug resistant HIV strains was increased with the continuation of antiretroviral therapy in the southern part of Henan province. Measures, that could promote high level adherence, provide new drugs and change ART regimens in failing patients, should be implemented as soon as possible.     

Cloning, sequencing and identification of single nucleotide polymorphisms of partial sequence on the porcine CACNA1S gene

CACNA1S gene encodes the α1 subunit of the calcium channel. The mutation of CACNA1S gene can cause hypokalemic periodic paralysis (HypoKPP) and maliglant hyperthermia synarome (MHS) in hu-man beings. Current research on CACNA1S was mainly in human being and model animal, but rarely in livestock and poultry. In this study, Yorkshire pigs (23), Pietrain pigs (30), Jinhua pigs (115) and the second generation (126) of crossbred of Jinhua and Pietrain were used. Primers were designed ac-cording to the sequence of human CACNA1S gene and PCR was carried out using pig genome DNA. PCR products were sequenced and compared with that of human, and then single nucleotide poly-morphisms (SNPs) were investigated by PCR-SSCP, while PCR-RFLP tests were performed to validate the mutations. Results indicated: (1) the 5211 bp DNA fragments of porcine CACNA1S gene were ac-quired (GenBank accession number: DQ767693 ) and the identity of the exon region was 82.6% be-tween human and pig; (2) fifty-seven mutations were found within the cloned sequences, among which 24 were in exon region; (3) the results of PCR-RFLP were in accordance with that of PCR-SSCP. Ac-cording to the EST of porcine CACNA1S gene published in GenBank (Bx914582, Bx666997), 8 of the 11 SNPs identified in the present study were consistent with the base difference between two EST frag-ments.     

Morphogenesis of T-tubules in heart cells: the role of junctophilin-2

The T-tubule (TT) system forms the structural basis for excitation-contraction coupling in heart and muscle cells. The morphogenesis of the TT system is a key step in the maturation of heart cells because it does not exist in neonatal cardiomyocytes. In the present study, we quantified the morphological changes in TTs during heart cell maturation and investigated the role of junctophilin-2 (JP2), a protein known to anchor the sarcoplasmic reticulum (SR) to TT, in changes to TT morphological parameters. Analysis of confocal images showed that the transverse elements of TTs increased, while longitudinal elements decreased during the maturation of TTs. Fourier transform analysis showed that the power of ~2 m spatial components increased with cardiomyocytes maturation. These changes were preceded by increased expression of JP2, and were reversed by JP2 knockdown. These findings indicate that JP2 is required for the morphogenesis of TTs during heart development.     

AR mutations in 28 patients with androgen insensitivity syndrome(Prader grade 0–3)

We investigated the androgen receptor(AR) gene mutation profiles of Chinese patients exhibiting severe androgen insensitivity syndrome(AIS) phenotypes. The present study enrolled 28 patients with genetically diagnosed AIS, who presented with severe phenotypes(Prader grade 0–3). Patients and some family members were screened via amplification and sequencing of their AR exons 1–8, including the corresponding intronic flanking regions. Luteinizing(LH), follicle-stimulating(FSH), and testosterone(T) hormone levels were found to be slightly, but not significantly, higher in patients with complete androgen insensitivity syndrome(CAIS) than in patients with partial androgen insensitivity syndrome(PAIS)(P0.05). We identified 24 different AR mutations, including 12 that were novel. Ten patients(cases 2, 3, 10, 28, 11, 12, 19, 20, 24, and 25) were found to carry five recurrent mutations(p.Y572 S, p.P914 S, p.S176 R, p.Y782 N, and p.R841H); of these, p.Y572 S, p.S176 R, and p.Y782 N were novel. Among the mutations identified in patients with CAIS, six(66.7%) were characterized as single-nucleotide missense mutations, and six(66.7%) were found to be located in the AR ligand-binding domain(LBD). Among the mutations identified in patients with PAIS, 15(93.8%) were found to be missense, and 11(68.8%) were found to be located in the LBD. Patients 10 and 28 were determined to harbor the same missense mutation(p.P914S), but were diagnosed with CAIS and PAIS, respectively.Sex hormone levels were slightly, but not significantly, elevated in patients with CAIS compared to those with PAIS. Missense mutations spanning AR exons 1–8 were the predominant form of identified mutations, and these were mostly located in the AR LBD. Approximately 50% of the identified mutations were novel, and have enriched the AR gene-mutation database. Patients harboring identical mutations were in some instances found to exhibit divergent phenotypes.     

Cardiac contractile dysfunction in J2N-k cardiomyopathic hamsters is associated with impaired SR function and regulation

Although dilated cardiomyopathy (DCM) is known to result in cardiac contractile dysfunction, the underlying mechanisms are unclear. The sarcoplasmic reticulum (SR) is the main regulator of intracellular Ca²⁺ required for cardiac contraction and relaxation. We therefore hypothesized that abnormalities in both SR function and regulation will contribute to cardiac contractile dysfunction of the J2N-k cardiomyopathic hamster, an appropriate model of DCM. Echocardiographic assessment indicated contractile dysfunction, because the ejection fraction, fractional shortening, cardiac output, and heart rate were all significantly reduced in J2N-k hamsters compared with controls. Depressed cardiac function was associated with decreased cardiac SR Ca²⁺ uptake in the cardiomyopathic hamsters. Reduced SR Ca²⁺ uptake could be further linked to a decrease in the expression of the SR Ca²⁺-ATPase and cAMP-dependent protein kinase (PKA)-mediated phospholamban (PLB) phosphorylation at serine-16. Depressed PLB phosphorylation was paralleled with a reduction in the activity of SR-associated PKA, as well as an elevation in protein phosphatase activity in J2N-k hamster. The results of this study suggest that an alteration in SR function and its regulation contribute to cardiac contractile dysfunction in the J2N-k cardiomyopathic hamster. sarcoplasmic reticulum; cardiomyopathy; cAMP-dependent protein kinase; Ca²⁺/calmodulin-dependent protein kinase; sarco(endo)plasmic reticulum ATPase; phospholamban     

Heterogeneous distribution of calmodulin- and cAMP-dependent regulation of Ca2+ uptake in cardiac sarcoplasmic reticulum subfractions

The activity of the Ca2+-pumping ATPase of cardiac sarcoplasmic reticulum is controlled by the phosphorylation level of the intrinsic membrane protein phospholamban. Phospholamban monomers contain two distinct phosphorylation sites for either the cAMP-dependent or the calmodulin-dependent kinase. The two kinases, however, preferentially phosphorylate different populations of phospholamban molecules and double phosphorylation of the same subunit by their concerted action is a phenomenon that occurs only under particular experimental conditions. This study investigates the phosphorylation pattern of phospholamban in various subfractions derived from dog cardiac sarcoplasmic reticulum. The results show that the endogenous calmodulin-dependent kinase preferentially phosphorylates the phospholamban population found in association with the cisternal compartments of the reticulum. The differential phosphorylation occurs despite the presence of sufficient amounts of the kinase in all sarcoplasmic reticulum subfractions. On the other hand, phospholamban molecules localized on the longitudinal system are preferential substrates for the cAMP-dependent kinase. Possibly, the different lipid and/or protein microenvironment of phospholamban in the various sarcoplasmic reticulum domains is responsible for the apparent heterogeneity of phosphorylation. The present findings are compatible with the concept of additive and independent action of the cAMP-dependent and calmodulin-dependent kinases on cardiac sarcoplasmic reticulum. The imply, however, that different regions of the sarcoplasmic reticulum network are controlled by the two regulatory mechanisms.     

Comparison of the Structure and Function of Phospholamban and the Arginine-14 Deficient Mutant Associated with Dilated Cardiomyopathy

Phospholamban (PLB) is a pentameric protein that plays an important role in regulating cardiac contractility via a reversible inhibitory association with the sarcoplasmic reticulum Ca²⁺ATPase (SERCA), the enzyme responsible for maintaining correct calcium homeostasis. Here we study the functional and biophysical characteristics of a PLB mutant associated with human dilated cardiomyopathy (DCM), with a deletion of arginine at position 14 (PLBR14Δ). In agreement with recent findings, we find that PLBR14Δ has a reduced inhibitory effect on SERCA compared to wild type PLB (PLBWT) when reconstituted into lipid membranes. The mutation also leads to a large reduction in the protein kinase A-catalysed phosphorylation of Ser-16 in the cytoplasmic domain of PLBR14Δ. Measurements on SERCA co-reconstituted with an equimolar mixture of PLBWT and PLBR14Δ (representing the lethal heterozygous state associated with DCM) indicates that the loss-of-function mutation has a dominant effect on PLBWT functionality and phosphorylation capacity, suggesting that mixed PLBWT/PLBR14Δ pentamers are formed that have characteristics typical of the mutant protein. Structural and biophysical analysis of PLBR14Δ indicates that the mutation perturbs slightly the helical structure of the PLB cytoplasmic domain and reduces its affinity for the phospholipid bilayer surface, thereby altering the orientation of the cytoplasmic domain relative to the wild-type protein. These results indicate that the structure and function consequences of the R14 deletion have profound effects on the regulation of SERCA which may contribute to the aetiology of DCM.     

Purification and characterization of phospholamban from canine cardiac sarcoplasmic reticulum

Phospholamban, the putative protein regulator of the Ca2+ pump of cardiac sarcoplasmic reticulum, was purified to apparent homogeneity from canine cardiac sarcoplasmic reticulum vesicles by selective extraction with sodium cholate, followed by adsorption to calcium oxalate, solubilization in Zwittergent 3-14, and specific elution from p-hydroxymercuribenzoate-agarose. Phospholamban, isolated in the dephosphorylated state, was purified 80-fold in 15% yield (approximately 2 mg of phospholamban/g of sarcoplasmic reticulum protein). Nondissociated phospholamban exhibited an apparent Mr = 25,000 in sodium dodecyl sulfate-polyacrylamide gels. Partially dissociated phospholamban, induced by boiling in sodium dodecyl sulfate, exhibited five distinct mobility forms in sodium dodecyl sulfate-polyacrylamide gels, of apparent molecular weights between 5,000-6,000 and 25,000. Phospholamban was phosphorylated to a level of 190 nmol of Pi/mg of protein by cAMP-dependent protein kinase, consistent by minimum stoichiometry with a subunit molecular weight of approximately 5,000. Phospholamban prepared by the present method was different in several respects from the proteins that have been isolated in other laboratories. Pure phospholamban was cysteine rich, containing 6 residues/100 amino acid residues. Dephosphorylated phospholamban was strongly basic with a pI = 10; phosphorylation decreased the pI to approximately 6.7. Pure phospholamban (and phospholamban present in sarcoplasmic reticulum vesicles) was not readily extracted into acidified chloroform/methanol, suggesting that the protein does not behave as an acidic proteolipid. The purified protein was highly antigenic. Phospholamban was localized by immunochemical methods to cardiac membranes enriched in sarcoplasmic reticulum, but was absent from sarcoplasmic reticulum membranes prepared from fast skeletal muscle. The method described for isolation of cardiac phospholamban is highly reproducible and relatively simple, and should be useful for further detailed studies designed to probe the molecular structure of the protein.     

Effect of Membrane Thickness on Conformational Sampling of Phospholamban from Computer Simulations

The conformational sampling of monomeric, membrane-bound phospholamban is described from computer simulations. Phospholamban (PLB) plays a key role as a regulator of sarcoplasmic reticulum calcium ATPase. An implicit membrane model is used in conjunction with replica exchange molecular dynamics simulations to reach μs-ms timescales. The implicit membrane model was also used to study the effect of different membrane thicknesses by scaling the low-dielectric region. The conformational sampling with the membrane model mimicking dipalmitoylphosphatidylcholine bilayers is in good agreement overall with experimental measurements, but consists of a wide variety of different conformations including structures not described previously. The conformational ensemble shifts significantly in the presence of thinner or thicker membranes. This has implications for the structure and dynamics of PLB in physiological membranes and offers what we believe to be a new interpretation of previous experimental measurements of PLB in detergents and microsomal membrane.     

Localization of phospholamban in slow but not fast canine skeletal muscle fibers. An immunocytochemical and biochemical study

Phospholamban, originally described as a cardiac sarcoplasmic reticulum protein, was localized in cryostat sections of three adult canine skeletal muscles (gracilis, extensor carpi radialis, and superficial digitalis flexor) by immunofluorescence labeling with highly specific phospholamban antibodies. Only some myofibers were strongly labeled with phospholamban antibodies. The labeling of myofibers with phospholamban antibodies was compared to the distribution of Type I (slow) and Type II (fast) myofibers as determined by staining adjacent sections cytochemically for the alkali-stable myosin ATPase, a specific marker for Type II myofibers. All the skeletal myofibers labeled for phospholamban above background levels corresponded to Type I (slow) myofibers. The presence of phospholamban in microsomal fractions isolated from canine superficial digitalis flexor (89 +/- 3% Type I) and extensor carpi radialis skeletal muscle (14 +/- 6% Type I) was confirmed by immunoblotting. Antiserum to cardiac phospholamban bound to proteins of apparent Mr values of 25,000 (oligomeric phospholamban) and 5,000-6,000 (monomeric phospholamban) in sarcoplasmic reticulum vesicles from both muscles. Quantification of phospholamban in sarcoplasmic reticulum vesicles from cardic, slow, and fast skeletal muscle tissues following phosphorylation with [gamma-32P] ATP suggested that superficial digitalis flexor and extensor carpi radialis skeletal muscle contained about 16 and 3%, respectively, as much phospholamban as cardiac muscle per unit of sarcoplasmic reticulum. The presence of phospholamban in both Type I (slow) and cardiac muscle fibers supports the possibility that the Ca2+ fluxes across the sarcoplasmic reticulum in both fiber types are similarly regulated, and is consistent with the idea that the relaxant effect of catecholamines on slow skeletal muscle is mediated in part by phosphorylation of phospholamban.     

Heparin-derived oligosaccharides interact with the phospholamban cytoplasmic domain and stimulate SERCA function

The association between the cardiac transmembrane proteins phospholamban and sarcoplasmic reticulum Ca²⁺ ATPase (SERCA2a) regulates the active transport of Ca²⁺ into the sarcoplasmic reticulum (SR) lumen and controls the contraction and relaxation of the heart. Heart failure (HF) and cardiac hypertrophy have been linked to defects in Ca²⁺ uptake by the cardiac SR and stimulation of calcium transport by modulation of the PLB-SERCA interaction is a potential therapy. This work is part of an effort to identify compounds that destabilise the PLB-SERCA interaction in well-defined membrane environments. It is shown that heparin-derived oligosaccharides (HDOs) interact with the cytoplasmic domain of PLB and consequently stimulate SERCA activity. These results indicate that the cytoplasmic domain of PLB is functionally important and could be a valid target for compounds with drug-like properties.     

Structural constraints on the transmembrane and juxtamembrane regions of the phospholamban pentamer in membrane bilayers: Gln29 and Leu52

The Ca2+-ATPase of cardiac muscle cells transports Ca2+ ions against a concentration gradient into the sarcoplasmic reticulum and is regulated by phospholamban, a 52-residue integral membrane protein. It is known that phospholamban inhibits the Ca2+ pump during muscle contraction and that inhibition is removed by phosphorylation of the protein during muscle relaxation. Phospholamban forms a pentameric complex with a central pore. The solid-state magic angle spinning (MAS) NMR measurements presented here address the structure of the phospholamban pentamer in the region of Gln22-Gln29. Rotational echo double resonance (REDOR) NMR measurements show that the side chain amide groups of Gln29 are in close proximity, consistent with a hydrogen-bonded network within the central pore. 13C MAS NMR measurements are also presented on phospholamban that is 1-13C-labeled at Leu52, the last residue of the protein. pH titration of the C-terminal carboxyl group suggests that it forms a ring of negative charge on the lumenal side of the sarcoplasmic reticulum membrane. The structural constraints on the phospholamban pentamer described in this study are discussed in the context of a multifaceted mechanism for Ca2+ regulation that may involve phospholamban as both an inhibitor of the Ca2+ ATPase and as an ion channel.     

Localization of phospholamban in smooth muscle using immunogold electron microscopy

Phospholamban, the putative regulator of the Ca2+-ATPase in cardiac sarcoplasmic reticulum, was immunolocalized in canine visceral and vascular smooth muscle. Gently disrupted tissues were labeled with an affinity-purified phospholamban polyclonal antibody and indirect immunogold, using preembedding techniques. The sarcoplasmic reticulum of smooth muscle cells was specifically labeled with patches of immunogold distributed in a nonuniform fashion, while the sarcolemma did not appear to contain any phospholamban. The outer nuclear envelopes were also observed to be heavily labeled with the affinity-purified phospholamban polyclonal antibody. These findings suggest that phospholamban may play a role in the regulation of cytoplasmic and intranuclear calcium levels in smooth muscle cells.