Transient expression of myofibroblast-like cells in rat rib fracture callus.

Background And Purpose: We have previously shown that early fracture callus of rat rib has viscoelastic and contractile properties resembling those of smooth muscle. The cells responsible for this contractility have been hypothesized to be myofibroblast-like in nature. In soft-tissue healing, force generated by contraction of myofibroblasts promotes healing.

α(1) adrenergic receptor agonist, phenylephrine, actively contracts early rat rib fracture callus ex vivo.

Early, soft fracture callus that links fracture ends together is smooth muscle-like in nature. We aimed to determine if early fracture callus could be induced to contract and relax ex vivo by similar pathways to smooth muscle, that is, contraction via α(1) adrenergic receptor (α(1) AR) activation with phenylephrine (PE) and relaxation via β(2) adrenergic receptor (β(2) AR) stimulation with terbutaline. A sensitive force transducer quantified 7 day rat rib fracture callus responses in modified Krebs-Henseliet (KH) solutions.

Early fracture callus displays smooth muscle-like viscoelastic properties ex vivo: implications for fracture healing.

Cells of early, fibrous callus in bone fractures possess much alpha smooth muscle actin. This callus contracts and relaxes; however, active and passive components of its force production have yet to be defined. We aimed to establish whether passive viscoelastic properties of early soft fracture callus are smooth muscle-like in nature.

Differential effects of arginine, glutamate and phosphoarginine on Ca(2+)-activation properties of muscle fibres from crayfish and rat.

The effects of two amino acids, arginine which has a positively charged side-chain and glutamate which has a negatively charged side-chain on the Ca2+-activation properties of the contractile apparatus were examined in four structurally and functionally different types of skeletal muscle; long- and short-sarcomere fibres from the claw muscle of the yabby (a freshwater decapod crustacean), and fast- and slow-twitch fibres from limb muscles of the rat. Single skinned fibres were activated in carefully balanced solutions of different pCa (-log10[Ca2+]) that either contained the test solute ("test") or not ("control"). The effect of phosphoarginine, a phosphagen that bears a nett negative charge, was also compared to the effects of arginine.

Early callus of fractured rib of rat contracts and relaxes ex vivo.

Purpose: Wound contraction is an essential process in early soft-tissue repair, yet contraction of callus in fracture repair has not been investigated previously. Fracture callus consists of several cell types, many of which may have the capacity to contract. Accordingly, the purpose of the present study was to (i) determine whether early soft fracture calluses contract and relax ex vivo and (ii) identify and locate the contractile protein, alpha smooth muscle actin (alphaSMA) in callus.

Lidoflazine is a high affinity blocker of the HERG K(+)channel.

Lidoflazine is an antianginal calcium channel blocker that carries a significant risk of QT interval prolongation and ventricular arrhythmia. We investigated whether or not lidoflazine inhibits current through the rapid delayed rectifier K(+) channel alpha subunit (encoded by HERG - human ether-a-go-go-related gene), since this channel has been widely linked to drug-induced QT-prolongation. Lidoflazine inhibited potently HERG current (I(HERG)) recorded from HEK 293 cells stably expressing wild-type HERG (IC(50) of approximately 16 nM).