Journal of Muscle Research and Cell Motility 

About: Journal of Muscle Research and Cell Motility is an academic journal published by Springer Science+Business Media. The journal publishes majorly in the area(s): Myosin & Skeletal muscle. It has an ISSN identifier of 0142-4319. Over the lifetime, 1976 publications have been published receiving 59151 citations.

Three myosin heavy chain isoforms in type 2 skeletal muscle fibres.

Abstract: Mammalian skeletal muscles consist of three main fibre types, type 1, 2A and 2B fibres, with different myosin heavy chain (MHC) composition. We have now identified another fibre type, called type 2X fibre, characterized by a specific MHC isoform. Type 2X fibres, which are widely distributed in rat skeletal muscles, can be distinguished from 2A and 2B fibres by histochemical ATPase activity and by their unique staining pattern with seven anti-MHC monoclonal antibodies. The existence of the 2X-MHC isoform was confirmed by immunoblotting analysis using muscles containing 2X fibres as a major component, such as the normal and hyperthyroid diaphragm, and the soleus muscle after high frequency chronic stimulation. 2X-MHC contains one determinant common to 2B-MHC and another common to all type 2-MHCs, but lacks epitopes specific for 2A- and 2B-MHCs, as well as an epitope present on all other MHCs. By SDS-polyacrylamide gel electrophoresis 2X-MHC shows a lower mobility compared to 2B-MHC and appears to comigrate with 2A-MHC. Muscles containing predominantly 2X-MHC display a velocity of shortening intermediate between that of slow muscles and that of fast muscles composed predominantly of 2B fibres.

Searching for the exercise factor: is IL-6 a candidate?

Abstract: For years the search for the stimulus that initiates and maintains the change of excitability or sensibility of the regulating centers in exercise has been progressing. For lack of more precise knowledge, it has been called the ‘work stimulus’, ‘the work factor’ or ‘the exercise factor’. In other terms, one big challenge for muscle and exercise physiologists has been to determine how muscles signal to central and peripheral organs. Here we discuss the possibility that interleukin-6 (IL-6) could mediate some of the health beneficial effects of exercise. In resting muscle, the IL-6 gene is silent, but it is rapidly activated by contractions. The transcription rate is very fast and the fold changes of IL-6 mRNA is marked. IL-6 is released from working muscles into the circulation in high amounts. The IL-6 production is modulated by the glycogen content in muscles, and IL-6 thus works as an energy sensor. IL-6 exerts its effect on adipose tissue, inducing lipolysis and gene transcription in abdominal subcutaneous fat and increases whole body lipid oxidation. Furthermore, IL-6 inhibits low-grade TNF-α-production and may thereby inhibit TNF-α-induced insulin resistance and atherosclerosis development. We propose that IL-6 and other cytokines, which are produced and released by skeletal muscles, exerting their effects in other organs of the body, should be named ‘myokines’.

Vertebrate tropomyosin: distribution, properties and function.

Abstract: Tropomyosin (TM) is widely distributed in all cell types associated with actin as a fibrous molecule composed of two α-helical chains arranged as a coiled-coil. It is localised, polymerised end to end, along each of the two grooves of the F-actin filament providing structural stability and modulating the filament function. To accommodate the wide range of functions associated with actin filaments that occur in eucaryote cells TM exists in a large number isoforms, over 20 of which have been identified. These isoforms which are expressed by alternative promoters and alternative RNA processing of four genes, TPM1, 2, 3 and 4, all conform to a general pattern of structure. Their amino acid sequences consist of an integral number, six or seven in vertebrates, of quasiequivalent regions of about 40 residues that are considered to represent the actin-binding regions of the molecule. In addition to the variable regions a large part of the polypeptide chains of the TM isoforms, mainly centrally located and expressed by five exons, is invariant. Many of the isoforms are tissue and filament specific in their distribution implying that the exons expressed in them and the regions of the molecule they represent are of significance for the function of the filament system with which they are associated. In the case of muscle there is clear evidence that the TM moves its position on the F-actin filament during contraction and it is therefore considered to play an important part in the regulation of the process. It is uncertain how the role of TM in muscle compares to that in non-muscle systems and if its function in the former tissue is unique to muscle.

Pyrene actin: documentation of the validity of a sensitive assay for actin polymerization.

Abstract: The fluorescence of pyrene-labelled actin is much higher after polymerization. We have characterized in detail the polymerization properties of pyrene actin and report that native and pyrene actin are identical using the following criteria: (1) the time course of polymerization; (2) the elongation rate constants; (3) the intrinsic viscosity; and (4) the critical concentration. Native and pyrene actin copolymerize. Fluorescence of polymerized pyrene actin is 7-10 times higher than monomer. The fluorescent signal is proportional to polymer weight concentration and is insensitive to filament length distribution. Bleaching can be minimized by appropriate filters to allow continuous monitoring of signal. Measurements do not influence polymerization kinetics. This establishes that pyrene actin fluorescence is a valid assay for actin polymerization that is more sensitive than any other current assay.