Heat-induced Denaturation of Myosin Total Rod

The myosin total rod, which consists of smaller segments of light meromyosin and heavy meromyosin subfragment-2 (HMM S–2), prepared by limited papain digestion of rabbit myosin, was purified by Sepharose-2B column chromatography. The purified total rod was more homogeneous than any previously reported, and the sodium dodecyl sulfate (SDS) gel electrophoretic method yielded a molecular weight of 22?23 × 10⁴ (11?11.5 × 10⁴ × 2).

Transition temperatures of this purified myosin total rod obtained from the melting profile during heating were 47.5 and 55°C. The results of ORD and CD measurements showed almost full reversibility upon cooling after thermal treatment. However, the results obtained from difference spectra and fluorescence spectra showed incomplete reversibility with hysteresis.

This ostensible dichotomy concerning the structural thermostability of the rod portion of myosin molecule may mean that although ORD and CD studies show almost full reversibility of the helix-coil transition, local irreversible conformational changes, involving aromatic amino acid residues take place. This fact suggests that the renahired α-rope of the myosin total rod can exhibit different properties than the native molecule under conditions where no discernible loss in helix content occurs.     

Heat-induced Gelation of Myosin from Leg and Breast Muscles of Chicken

Heat-induced gelation of myosin from leg and breast muscles of chicken was studied in 0.6 m KC1. Gel strength of breast myosin was higher than that of leg myosin between pH 5.2 and 6.0. Turbidity of breast myosin increased below pH 6.0 but that of leg myosin did not increase at pH 5.7. Turbidity of leg myosin was higher than that of breast myosin below pH 5.6. Viscosity of breast myosin increased between pH 5.5 and 6.0 as the pH decreases, although that of leg myosin decreased. The breast myosin assembled to form long filaments at pH 5.7, but leg myosin failed to form long filaments. At pH 5.4, breast myosin filaments became longer and leg myosin assembled into filaments though they were shorter than breast myosin filaments. The strength of heat-induced gel formed from the filamentous leg and breast myosins at acidic region was not influenced by F-actin. These results indicate that the strength of heat-induced gel of both myosins is closely related to their morphological properties.     

Heat-induced Gelation of Myosin Filaments at a Low Salt Concentration

The heat-induced gelation properties of myosin in low salt concentration were studied. Freshly prepared myosin formed gels with an extremely high rigidity in 0.1 to 0.3 m KC1 at pH 6.0 on heating. This high heat-induced gel formability of myosin filaments diminished during storage, concomitant with the loss of the filament formability inherent in the native myosin. Presumably intermolecular aggregation was the cause of this loss during storage. The difference in the heat-induced gelation of myosin filaments at a low salt concentration (0.2 m KC1) and that of myosin monomers at a high salt concentration (0.6 m KC1) was clearly.distinguishable from their gelling behavior. The high gelation ability of freshly prepared myosin filaments upon heating seems to develop through the interfilamental head-head aggregation on the surface of the filaments without involving the tail portion of the molecule.     

Cross-Species Mechanical Fingerprinting of Cardiac Myosin Binding Protein-C

Cardiac myosin binding protein-C (cMyBP-C) is a member of the immunoglobulin (Ig) superfamily of proteins and consists of 8 Ig- and 3 fibronectin III (FNIII)-like domains along with a unique regulatory sequence referred to as the MyBP-C motif or M-domain. We previously used atomic force microscopy to investigate the mechanical properties of murine cMyBP-C expressed using a baculovirus/insect cell expression system. Here, we investigate whether the mechanical properties of cMyBP-C are conserved across species by using atomic force microscopy to manipulate recombinant human cMyBP-C and native cMyBP-C purified from bovine heart. Force versus extension data obtained in velocity-clamp experiments showed that the mechanical response of the human recombinant protein was remarkably similar to that of the bovine native cMyBP-C. Ig/Fn-like domain unfolding events occurred in a hierarchical fashion across a threefold range of forces starting at relatively low forces of ∼50 pN and ending with the unfolding of the highest stability domains at ∼180 pN. Force-extension traces were also frequently marked by the appearance of anomalous force drops suggestive of additional mechanical complexity such as structural coupling among domains. Both recombinant and native cMyBP-C exhibited a prominent segment ∼100 nm-long that could be stretched by forces <50 pN before the unfolding of Ig- and FN-like domains. Combined with our previous observations of mouse cMyBP-C, these results establish that although the response of cMyBP-C to mechanical load displays a complex pattern, it is highly conserved across species.     

Effects of Cardiac Myosin Binding Protein-C on Actin Motility Are Explained with a Drag-Activation-Competition Model

Although mutations in cardiac myosin binding protein-C (cMyBP-C) cause heart disease, its role in muscle contraction is not well understood. A mechanism remains elusive partly because the protein can have multiple effects, such as dual biphasic activation and inhibition observed in actin motility assays. Here we develop a mathematical model for the interaction of cMyBP-C with the contractile proteins actin and myosin and the regulatory protein tropomyosin. We use this model to show that a drag-activation-competition mechanism accurately describes actin motility measurements, while models lacking either drag or competition do not. These results suggest that complex effects can arise simply from cMyBP-C binding to actin.     

一种新型生物聚合物Ss的流变学性质及成胶特性

本文对一种新型生物聚合物Ss的流变学性质及成胶特性进行了研究。该聚合物的流变学性质与黄原胶类似, 具有高粘性、假塑性及耐盐性。0.6％以上的Ss溶液加热(≥75℃)并冷却至室温可形成凝胶, 加入金属离子可以改变其成胶所需的最低聚合物浓度及所成凝胶的性质。利用质构分析(TPA)方法, 研究了不同聚合物浓度和钙离子浓度下凝胶的质构性质。钙离子的加入能促进凝胶的形成, 凝胶的硬度、弹性、内聚性随聚合物浓度及钙离子浓度的增加而增大, 但大于最适钙离子浓度时, 硬度、弹性及内聚性均有所下降。     

Constitutive Phosphorylation of Cardiac Myosin Regulatory Light Chain in Vivo

In beating hearts, phosphorylation of myosin regulatory light chain (RLC) at a single site to 0.45 mol of phosphate/mol by cardiac myosin light chain kinase (cMLCK) increases Ca²⁺ sensitivity of myofilament contraction necessary for normal cardiac performance. Reduction of RLC phosphorylation in conditional cMLCK knock-out mice caused cardiac dilation and loss of cardiac performance by 1 week, as shown by increased left ventricular internal diameter at end-diastole and decreased fractional shortening. Decreased RLC phosphorylation by conventional or conditional cMLCK gene ablation did not affect troponin-I or myosin-binding protein-C phosphorylation in vivo. The extent of RLC phosphorylation was not changed by prolonged infusion of dobutamine or treatment with a β-adrenergic antagonist, suggesting that RLC is constitutively phosphorylated to maintain cardiac performance. Biochemical studies with myofilaments showed that RLC phosphorylation up to 90% was a random process. RLC is slowly dephosphorylated in both noncontracting hearts and isolated cardiac myocytes from adult mice. Electrically paced ventricular trabeculae restored RLC phosphorylation, which was increased to 0.91 mol of phosphate/mol of RLC with inhibition of myosin light chain phosphatase (MLCP). The two RLCs in each myosin appear to be readily available for phosphorylation by a soluble cMLCK, but MLCP activity limits the amount of constitutive RLC phosphorylation. MLCP with its regulatory subunit MYPT2 bound tightly to myofilaments was constitutively phosphorylated in beating hearts at a site that inhibits MLCP activity. Thus, the constitutive RLC phosphorylation is limited physiologically by low cMLCK activity in balance with low MLCP activity.     

Isolation and Fluorescence Spectrum of Cardiac Myosin from Pig Heart

Cardiac myosin is the most abundant and bioactive protein presented in heart tissue. In this work, a simple method was described for preparation of high purity cardiac myosin for further research. With the use of a domestic pig left ventricle as the starting tissue, this method yielded 4.5 mg myosin per gram of wet tissue with a specific activity of 0.293 U/mg. The purification factor was 4.9-fold with an activity recovery of 42.1%. In addition, the investigation of fluorescence spectrum shown that the emission intensity of cardiac myosin has a dramatic decrease under the influence of an acidic environment or at temperatures higher than 30 °C, which could influence the normal physiological function of cardiac myosin.     

Effect of Selenium on the Interaction Between Daunorubicin and Cardiac Myosin

The interactions between selenium (sodium selenite), anthracycline antibiotics daunorubicin (DNR), and major contractile protein cardiac myosin (CM) were investigated. The results showed that the binding force between selenium and CM was 100 times stronger than that of DNR and CM. There was no marked influence on fluorescence intensity of DNR-CM at selenium concentrations of up to 20 μM. The co-administration of selenium (0.5-10.0 μg Se/ml) together with DNR resulted in a significant reduction in mice cardiotoxicity. However, selenium at the dose of 50.0 or 100.0 μg Se/ml afforded no obvious protection. The data indicate that selenium in the form of sodium selenite at appropriate dosage (<10.0 μg Se/ml) diminish the cardiac toxicity of DNR, potentially allowing the use of DNR at higher dosages in clinical cancer chemotherapy.     

Physicochemical and Rheological Properties of Romanian Honeys

The purpose of this work was to investigate the physicochemical and rheological properties of Romanian honey, and particularly to analyze the influence of moisture content, °Brix concentration and temperature. All the samples were characterized to determine their physicochemical (moisture, °Brix, pH, ash, conductivity, colour, 5-hydroxymethylfurfural content, sugar content, diastase activity) and bioactive (antioxidant activity, total phenols content and total flavonoids content) parameters. All the investigated honeys displayed Newtonian behaviour at all temperatures. Four experimental viscosity models were checked using the experimental data to correlate the influence of temperature upon honey viscosity; The William-Landel-Ferry model was much suitable than Power Law, Arrhenius and Vogel-Taumman-Fulcher models for temperature-viscosity modelling. By using the polynomial modeling method, it was possible to develop a mathematical model to describe honey viscosity in the function of temperature and chemical composition. The model achieved, developed from the viscosity, temperature and chemical composition allows predicting the evolution of the dynamic viscosity.     

Effect of Zinc and Copper on the Interaction of Daunorubicin with Cardiac Myosin

Daunorubicin (DNR) is an anthracyline antibiotic which induces a well-described but incompletely understood cardiac toxicity. In this study, a direct action of DNR on the major contractile protein, cardiac myosin (CM), was described utilizing the fluorescence spectroscopy. The quenching mechanism was suggested to be static quenching according to the fluorescence measurement. In particular, the effects of common ions on the binding constants of DNR with CM were also investigated under physiological conditions, and the quenching constant K(SV) and binding constant K(LB) were obtained at room temperature. These data proved that Zn2+ and/or Cu2+ potentiated quenching fluorescence intensity of DNR-CM complex. Moreover, the normal ratio of Zn2+ to Cu2+ was able to competitively inhibit the binding interaction of DNR with CM, which might contribute to exert the most significant cardioprotective effect and guarantee the contractile machinery of cardiac muscle.     

Cardiac Myosin Binding Protein-C Is Essential for Thick-Filament Stability and Flexural Rigidity

Using atomic force microscopy, we examined the contribution of cardiac myosin binding protein-C (cMyBP-C) to thick-filament length and flexural rigidity. Native thick filaments were isolated from the hearts of transgenic mice bearing a truncation mutation of cMyBP-C (t/t) that results in no detectable cMyBP-C and from age-matched wild-type controls (+/+). Atomic force microscopy images of these filaments were evaluated with an automated analysis algorithm that identified filament position and shape. The t/t thick-filament length (1.48 ± 0.02 μm) was significantly (P < 0.01) shorter than +/+ (1.56 ± 0.02 μm). This 5%-shorter thick-filament length in the t/t was reflected in 4% significantly shorter sarcomere lengths of relaxed isolated cardiomyocytes of the t/t (1.97 ± 0.01 μm) compared to +/+ (2.05 ± 0.01 μm). To determine if cMyBP-C contributes to the mechanical properties of thick filaments, we used statistical polymer chain mechanics to calculate a per-filament-specific persistence length, an index of flexural rigidity directly proportional to Young's modulus. Thick-filament-specific persistence length in the t/t (373 ± 62 μm) was significantly lower than in +/+ (639 ± 101 μm). Accordingly, Young's modulus of t/t thick filaments was ∼60% of +/+. These results provide what we consider a new understanding for the critical role of cMyBP-C in defining normal cardiac output by sustaining force and muscle stiffness.     

人心肌肌球蛋白轻链1与重链和肌动蛋白的结合

在测得中国人心肌肌球蛋白轻链 1cDNA的核苷酸序列 ,并获得一株单克隆抗体 (HCMLC1 8)的基础上 ,用PCR方法 ,以中国人心肌肌球蛋白轻链 1的cDNA为模板 ,分别获得中国人心肌肌球蛋白轻链 1的各为 98个氨基酸的N端和C端片段cDNA的克隆并进行了表达。同时进行了其表达产物和大鼠心肌肌球蛋白重链和人心肌肌动蛋白以及单克隆抗体结合的研究 ,发现三者均和轻链 1的N端相结合 ,结合位点各不相同。这些结合位点可能均位于轻链 1的分子表面 ,而且如果轻链 1在实验状态下先与肌动蛋白结合 ,则有可能影响轻链与重链间的彼此结合。肌动蛋白在体外能以不同位点结合肌球蛋白重链和轻链 ,可能在肌肉收缩过程中具有重要的生理意义     

Investigation of the Physicochemical and Physicomechanical Properties of a Novel Intravaginal Bioadhesive Polymeric Device in the Pig Model

The purpose of this study was to develop and evaluate the bioadhesivity, in vitro drug release, and permeation of an intravaginal bioadhesive polymeric device (IBPD) loaded with 3′-azido-3′-deoxythymidine (AZT) and polystyrene sulfonate (PSS). Modified polyamide 6,10, poly(lactic-coglycolic acid), polyacrylic acid, polyvinyl alcohol, and ethylcellulose were blended with model drugs AZT and PSS as well as radio-opaque barium sulfate (BaSO4) and then compressed into caplet devices on a tableting press. One set of devices was coated with 2% w/v pentaerythritol polyacrylic acid (APE-PAA) while another remained uncoated. Thermal analysis was performed on the constituent polymers as well the IBPD. The changes in micro-environmental pH within the simulated human vaginal fluid due to the presence of the IBPD were assessed over a period of 30 days. Textural profile analysis indicated that the bioadhesivity of the APE-PAA-coated devices (3.699 ± 0.464 N; 0.0098 ± 0.0004 J) was higher than that of the uncoated devices (1.198 ± 0.150 N; 0.0019 ± 0.0001 J). In addition, BaSO4-facilitated X-ray imaging revealed that the IBPD adhered to pig vaginal tissue over the experimental period of 30 days. Controlled drug release kinetics was obtained over 72 days. During a 24-h permeation study, an increase in drug flux for both AZT (0.84 mg cm⁻² h⁻¹) and PSS (0.72 mg cm⁻² h⁻¹) was realized up to 12 h and thereafter a steady-state was achieved. The diffusion and dissolution dynamics were mechanistically deduced based on a chemometric and molecular structure modeling approach. Overall, results suggested that the IBPD may be sufficiently bioadhesive with desirable physicochemical and physicomechanical stability for use as a prolonged intravaginal drug delivery device.     

Physicochemical Properties of Niigata Waxy Rices

The crude lipase powder has been purified 216-fold in specific activity by means of pH adjustment, DEAE-Cellu1ose, DEAE-Sephadex A-50, CM-Sephadex C-50 and Sephadex G-200 column chromatography and the recovery of the activity was 30%. The purified lipase was confirmed to be homogeneous with disc electrophoresis and ultracentrifugal analyses. The purified lipase was stable in the pH range from 7.0 to 10.0. Optimal pH for the lipolysis of polyvinyl alcohol-emulsified olive oil at 45°C was 8.0 and optimal temperature was 60°C. The purified lipase was stable up to 60°C and retained 55% of full activity after heating at 70°C for 20 min.     

单克隆抗体与抗血清联合应用建立血清CMLC测定方法的研究

单克隆抗体(McAb)和抗血清各有特点。本文提纯人心肌肌球蛋白轻链(CMLC)并制备其单克隆抗体和抗CMLC兔血清(下称抗血清),试建立测定血清CMLC的酶联免疫(ELISA)方法。通过比较,McAb和抗血清联合应用可提高测定方法的灵敏度和特异性;并对各反应试剂的工作浓度进行确定,建立了McAb(1C_(11)-D_7株)为铺底抗体,抗血清为覆盖抗体,碱性磷酸酶标记的羊抗兔IgG为第三抗体的三抗体酶联免疫夹心测定血清CMLC的方法(MP-ELISA)。血清CMLC最小可测浓度为2.5ng/mL。