Effects of 2,3-butanedione monoxime on cross-bridge kinetics in rat cardiac muscle

The effects of 2,3-butanedione monoxime (BDM) on isometric force and myofibrillar adenosine 5′-triphosphatase (ATPase) activity were studied in skinned cardiac trabeculae from the rat. ATP hydrolysis was enzymatically coupled to the breakdown of reduced nicotinamide adeninedinucleotide (NADH). The NADH concentration was monitored photometrically. Measurements were performed at a sarcomere length of 2.1 μm, 20 °C and pH 7.0. Without BDM, isometric force was 45 ± 3 kN/m² and the isometric ATPase activity 0.49 ± 0.04 mM/s (mean ± SEM, n = 31). Force gradually decreased as a function of [BDM] to 2.8 ± 0.4% at 100 mM BDM. ATPase activity was also depressed by BDM, but to a lesser extent than force. BDM therefore has a marked effect on myofibrillar tension cost. The rate of tension redevelopment after unloaded shortening decreased from 29 ± 2 s⁻¹ (n = 10) without BDM to 22 ± 1 s⁻¹ (n = 5) at 20 mM BDM. These results, modelled in a two- and three-state scheme of cross-bridge interaction, indicate that, in cardiac muscle, BDM not only affects cross-bridge formation but, especially at high concentrations (≥ 20 mM), also causes a marked increase in the apparent rate of cross-bridge detachment. Received: 27 October 1995/Received after revision: 24 January 1996/Accepted: 30 April 1996     

Acid-base changes and excitation-contraction coupling in rabbit myocardium. I. Effects on isometric tension development at different contraction frequencies.

The effects of changes in acid-base parameters on the active force of isolated rabbit papillary muscles were studied at contraction frequencies of 12, 60 and 120/min. When extracellular pH was lowered from 7.4 to 7.0 and 6.7 in a bathing solution buffered with 10 mM histidine, the active force decreased at all contraction frequencies studied. After parallel increases of HCO3-minus concentration (up to 47 mM) and PCO2 at a constant extracellular pH of 7.4 the active force of the muscle increased at low and decreased at high contraction frequencies. None of these effects can be attributed to catecholamine release or to altered extracellular concentration of ionized calcium. The inotropic effects produced by bicarbonate were not reproducible by methyl sulfate (47 mM) or propionate (47 mM). It is concluded that: 1. a lowering of the extracellular pH has a negative inotropic effect at all frequencies, 2. HCO3-minus has a positive inotropic effect that is most pronounced at low contraction frequencies and 3. CO2 has a negative inotropic effect exceeding that produced by the mere reduction in extracellular pH. The cellular mechanisms involved in the various inotropic effects are discussed.     

Role of the N-terminal negative charges of actin in force generation and cross-bridge kinetics in reconstituted bovine cardiac muscle fibres

Mutant yeast actins were used to determine the role of actin's N-terminal negative charges in force generation. The thin filament was selectively removed from bovine cardiac skinned muscle fibres by gelsolin, and the actin filament was reconstituted from purified G-actin. In this reconstitution, yeast wild-type actin (2Ac: two N-terminal negative charges), yeast mutant actins (3Ac and 4Ac), and rabbit skeletal muscle actin (MAc) were used. The effects of phosphate, ATP and ADP on force development were studied at 25°C. With MAc, isometric tension was 77% of the initial tension owing to the lack of a regulatory system. With 2Ac, isometric tension was 10% of the initial tension; with 3Ac, isometric tension was 23%; and with 4Ac, isometric tension was 44%. Stiffness followed a similar pattern (2Ac < 3Ac < 4Ac < MAc). A similar trend was observed during rigor induction and relaxation. Sinusoidal analysis was performed to obtain the kinetic constants of the cross-bridge cycle. The results showed that the variability of the kinetic constants was ≤ 2.5-fold among the 2Ac, 4Ac and MAc muscle models. When the cross-bridge distribution was examined, there was no significant reapportionment among these three models examined. These results indicate that force supported by each cross-bridge is modified by the N-terminal negative charges of actin, presumably via the actomyosin interface. We conclude that two N-terminal negative charges are not adequate, three negative charges are intermediate, and four negative charges are necessary to generate force.     

Frequency of the phenylalanine deletion (ΔF508) in the CF gene of Belgian cystic fibrosis patients

Cloning and sequencing of the CF gene has identified a three-base-pair deletion (delta F508) responsible for CF in the majority of CF patients (Kerem et al. 1989). We have used the polymerase chain reaction with oligonucleotide primers bridging the delta F508 deletion to analyze the presence or absence of this mutation in the Belgian CF population. The delta F508 mutation was present in 80% (57 on 71) of CF chromosomes from 36 unrelated Belgian CF families from the region of Antwerp. This mutation was associated with haplotype B for the KM.19-XV-2c RFLPs as 93% (53 on 57) of the CF chromosomes with the delta F508 mutation carried haplotype B.     

Endocrine and exocrine pancreatic function and the ΔF508 mutation in cystic fibrosis

The relationship between the cystic fibrosis (CF) genotype and endocrine and exocrine pancreatic function was studied in 215 CF patients. In the 211 patients with the delta F508 mutation, endocrine pancreatic function (oral glucose tolerance; WHO criteria) was normal in 72.5%, impaired in 12.3%, and diabetic in 15.2% of the patients, with no difference between CF patients homozygous (N = 163, median age 15 years, range 2-40) or heterozygous (N = 48, 18 years, 3-40; age difference not significant) for the delta F508 mutation. Exocrine pancreatic sufficiency (no need for pancreatic enzyme substitution) was found in 0.6% of the patients homozygous for the delta F508 mutation and in 10.4% of the heterozygotes (p less than 0.01). Homozygous patients with pancreatic insufficiency took more pancreatic enzyme capsules (median 42 per day, range 0-192) than the heterozygotes (29 per day, 0-300; p less than 0.001). The four patients (1.9%) without the delta F508 mutation had normal glucose tolerance but exocrine pancreatic insufficiency. In conclusion, the major mutation genotype in CF (delta F508) affects the severity of the exocrine pancreatic insufficiency, whereas endocrine pancreatic function is unrelated to this genotype.     

Acidosis modifies effects of phosphorylated tropomyosin on the actin-myosin interaction in the myocardium

Journal of Muscle Research and Cell Motility - Phosphorylation of α-tropomyosin (Tpm1.1), a predominant Tpm isoform in the myocardium, is one of the regulatory mechanisms of the heart...     

Frequency of the ΔF508 and exon 11 mutations in Norwegian cystic fibrosis patients

Eiklid K, Tranebjærg L, Eiken HG, Pedersen JC, Michalsen H, Fluge G, Schwartz M, Nilsen BR, Bolle R, Skyberg D, Boman H, Berg K. Frequency of the ΔF508 and exon 11 mutations in Norwegian cystic fibrosis patients.
Clin Genet 1993: 44: 12–14. © Munksgaard, 1993
We have searched for the ΔF508 mutation in 77 Norwegian cystic fibrosis patients. Of the 154 chromosomes tested, 93 (60%) carried the ΔF508 mutation. Haplotypes at the D7S23 locus (KM19 and XV2C markers) were determined. Of 81 chromosomes with the F508 mutation, the B haplotype was found on 77. We found three patients with the G551D and one patient with the R553X mutation in exon 11 of the CFTR locus.     

Effects of pH on spontaneous tension oscillation in skinned bovine cardiac muscle

Skinned cardiac muscle preparations exhibit spontaneous tension oscillations (spontaneous oscillatory contractions; SPOCs) in the absence of Ca²⁺, and in the presence of MgATP, MgADP and inorganic phosphate (Pi; ADP-SPOC). Similar oscillations occur in the presence of sub-micromolar concentrations of Ca²⁺ under normal activating conditions without MgADP and Pi (Ca-SPOC). In the study presented here, we investigated the effects of pH on both types of SPOC in skinned bovine cardiac ventricular muscle. First, a decrease in pH increased the MgADP concentration required to induce the half-maximal isometric tension that is obtained in the absence of Ca²⁺ and in the presence of MgATP (ADP-contraction). The inhibitory effect of Pi on ADP-contractions was not affected by pH. Second, ADP-SPOCs occurred upon the addition of Pi to the solution that resulted in ADP-contraction, and the relative amplitude and the period of the tension oscillation in the presence of 2 mM MgATP, 10 mM MgADP and 10 mM Pi were unchanged under all pH conditions examined (6.6, 7.0, 7.4). On the contrary, the relative amplitude and the period of the Ca-SPOCs were markedly diminished at pH 6.6. Finally, we constructed state diagrams showing the effects of pH on SPOC conditions. The state diagram shows that SPOCs occur less frequently under acidic conditions than at neutral pH. We suggest that the intermediate state of crossbridges that is required for SPOCs is more difficult to attain at a low pH. Received: 14 September 1998 / Received after revision: 23 February 1999 / Accepted: 10 March 1999     

The effects of length and stimulus rate on tension in the isometric cat soleus muscle

1. By subdividing ventral roots and supplying stimulating pulses to different groups of motor units in rotation, smooth contractions of soleus could be obtained with low rates of stimulation.2. Isometric tension was recorded with different rates of stimulation, and at different muscle lengths.3. Longitudinal histological sections were cut from muscles fixed at different lengths, and sarcomeres were measured. Mean sarcomere lengths in soleus could then be related to the angle at the ankle.4. At high rates of stimulation the maximum active tension was obtained at a length corresponding to an angle of about 60 degrees at the ankle, and a mean sarcomere length of about 2.8 mu. The isometric tension fell only slightly on shortening the muscle to a length equivalent to 100 degrees , and a mean sarcomere length about 2.3 mu. Further shortening caused a marked fall in tension.5. There was a reciprocal relationship between stimulus rate and muscle length; when the muscle was long low rates of stimulation gave near maximal tension, whereas at short lengths the maximum tension was reached only when the stimulus rate was very high. It is suggested that stimulating pulses activate the contractile machinery of the muscle more effectively at long than at short muscle lengths.6. When at low rates of stimulation pulses were distributed among the motor units in rotation to give a smooth contraction, the tension rose higher than during the unfused tetanus that accompanied synchronous stimulation of the same motor units at the same rate. It is suggested that in an unfused tetanus internal movement of the muscle reduces the tension below that developed in a truly isometric state.7. The rate of rise of tension in an isometric tetanus varied with both muscle length and rate of stimulation. At each stimulus rate there was a range of lengths in which the isometric tension developed slowly, this was the same length range in which, at that stimulus rate, the length tension curve was steep.     

Dependence of cross-bridge kinetics on myosin light chain isoforms in rabbit and rat skeletal muscle fibres

Cross-bridge kinetics underlying stretch-induced force transients was studied in fibres with different myosin light chain (MLC) isoforms from skeletal muscles of rabbit and rat. The force transients were induced by stepwise stretches (< 0.3% of fibre length) applied on maximally Ca²⁺-activated skinned fibres. Fast fibre types IIB, IID (or IIX) and IIA and the slow fibre type I containing the myosin heavy chain isoforms MHC-IIb, MHC-IId (or MHC-IIx), MHC-IIa and MHC-I, respectively, were investigated. The MLC isoform content varied within fibre types. Fast fibre types contained the fast regulatory MLC isoform MLC2f and different proportions of the fast alkali MLC isoforms MLC1f and MLC3f. Type I fibres contained the slow regulatory MLC isoform MLC2s and the slow alkali MLC isoform MLC1s. Slow MLC isoforms were also present in several type IIA fibres. The kinetics of force transients differed by a factor of about 30 between fibre types (order from fastest to slowest kinetics: IIB > IID > IIA ≫ I). The kinetics of the force transients was not dependent on the relative content of MLC1f and MLC3f. Type IIA fibres containing fast and slow MLC isoforms were about 1.2 times slower than type IIA fibres containing only fast MLC isoforms. We conclude that while the cross-bridge kinetics is mainly determined by the MHC isoforms present, it is affected by fast and slow MLC isoforms but not by the relative content of MLC1f and MLC3f. Thus, the physiological role of fast and slow MLC isoforms in type IIA fibres is a fine-tuning of the cross-bridge kinetics.