Cyclic mechanical strain causes cAMP-response element binding protein activation by different pathways in cardiac fibroblasts.

The transcription factor cAMP-response element binding protein (CREB) mediates the mechanical strain-induced gene expression in the heart. This study investigated which signaling pathways are involved in the straininduced CREB activation using cultured ventricular fibroblasts from adult rat hearts. CREB phosphorylation was analyzed by immunocytochemistry and ELISA.

Cyclical mechanical stretch modulates expression of collagen I and collagen III by PKC and tyrosine kinase in cardiac fibroblasts.

Mechanical load and chemical factors as stimuli for the different pattern of the extracellular matrix (ECM) could be responsible for cardiac dysfunction. Since fibroblasts can both synthesize and degrade ECM, ventricular fibroblasts from adult rat hearts underwent cyclical mechanical stretch (CMS; 0.33 Hz) by three different elongations (3%, 6%, 9%) and four different serum concentrations (0%, 0.

The stretch-activated potassium channel TREK-1 in rat cardiac ventricular muscle.

Objective: The biophysical properties and the regulation of the two-pore-domain potassium channel TREK-1 were studied in rat cardiomyocytes.

Methods: RT-PCR, immunohistochemistry and patch-clamp recording were performed in isolated rat ventricular cardiomyocytes. In some whole-cell-clamp experiments the myocytes were mechanically stretched using a glass stylus.

Organization of Ca2+ release units in excitable smooth muscle of the guinea-pig urinary bladder.

Ca(2+) release from internal stores (sarcoplasmic reticulum or SR) in smooth muscles is initiated either via pharmaco-mechanical coupling due to the action of an agonist and involving IP3 receptors, or via excitation-contraction coupling, mostly involving L-type calcium channels in the plasmalemma (DHPRs), and ryanodine receptors (RyRs), or Ca(2+) release channels of the SR. This work focuses attention on the structural basis for the coupling between DHPRs and RyRs in phasic smooth muscle cells of the guinea-pig urinary bladder. Immunolabeling shows that two proteins of the SR: calsequestrin and the RyR, and one protein the plasmalemma, the L-type channel or DHPR, are colocalized with each other within numerous, peripherally located sites located within the caveolar domains.

Contraction augments L-type Ca2+ currents in adherent guinea-pig cardiomyocytes.

As integrins are thought to function as mechanoreceptors, we studied whether they could mediate mechanical modulation of the L-type Ca2+ channel current (ICa) in guinea-pig cardiac ventricular myocytes (CVMs). CVMs were voltage clamped with 280 ms pulses from -45 to 0 mV at 0.5 Hz (1.

Altered calcium handling is critically involved in the cardiotoxic effects of chronic beta-adrenergic stimulation.

Background: Chronic adrenergic stimulation leads to cardiac hypertrophy and heart failure in experimental models and contributes to the progression of heart failure in humans. The pathways mediating the detrimental effects of chronic beta-adrenergic stimulation are only partly understood. We investigated whether genetic modification of calcium handling through deletion of phospholamban in mice would affect the development of heart failure in mice with transgenic overexpression of the beta1-adrenergic receptor.

Na(+)-Ca(2+) exchanger overexpression predisposes to reactive oxygen species-induced injury.

Objective: In heart failure (HF), the generation of reactive oxygen species (ROS) is enhanced. It was shown that failing cardiac myocytes are more susceptible to ROS-induced damage, possibly due to increased expression of the sarcolemmal Na-Ca exchanger (NCX).

Methods: We investigated the consequences of increased expression levels of NCX in adult rabbit ventricular cardiomyocytes (via adenovirus-mediated gene transfer, Ad-NCX1-GFP) with respect to tolerance towards ROS.

Ion selectivity of stretch-activated cation currents in mouse ventricular myocytes.

Stretch-activated non-selective cation currents ( I(SAC)) constitute a mechanism that can induce cardiac arrhythmias. We studied I(SAC) in mouse ventricular myocytes by stretching part of the cell surface between the patch-pipette and a motor-driven glass stylus. In non-clamped cells, local stretch depolarised and induced after-depolarisations and extrasystoles.

Cardiac fibroblasts and the mechano-electric feedback mechanism in healthy and diseased hearts.

Cardiac arrhythmia is a serious clinical condition, which is frequently associated with abnormalities of mechanical loading and changes in wall tension of the heart. Recent novel findings suggest that fibroblasts may function as mechano-electric transducers in healthy and diseased hearts. Cardiac fibroblasts are electrically non-excitable cells that respond to spontaneous contractions of the myocardium with rhythmical changes of their resting membrane potential.

Differential effects of stretch and compression on membrane currents and [Na+]c in ventricular myocytes.

Mechano-electrical feedback was studied in the single ventricular myocytes. A small fraction (approximately 10%) of the cell surface could be stretched or compressed by a glass stylus. Stretch depolarised, shortened the action potential and induced extra systoles.

Activation and inactivation of a non-selective cation conductance by local mechanical deformation of acutely isolated cardiac fibroblasts.

Objective: We describe mechanically induced non-selective cation currents in isolated rat atrial fibroblasts, which might play a role as a substrate for mechano-electrical feedback in the heart.

Methods: Isolated fibroblasts were used for voltage-clamp analysis of ionic currents generating mechanically-induced potentials. Fibroblasts were mechanically deformed (compressed or stretched) by two patch-pipettes.

Monitoring of ANP secretion from single atrial myocytes using densitometry.

Atrial myocytes secrete atrial natriuretic peptide (ANP) in response to mechanical stretch and can serve as a challenging model for studying stretch-secretion coupling. We have developed a technique for monitoring ANP secretion from single atrial myocytes, using neutral red and a CCD video camera. Atrial-specific granules (ASGs) containing ANP were stained with neutral red.

A possible role for atrial fibroblasts in postinfarction bradycardia.

Atrial fibroblasts are considered to modulate the contractile activity of the heart in response to mechanical stretch. In this study we examined whether atrial fibroblasts are possibly involved in bradyarrhythmia, which is a severe complication after myocardial infarction. For this purpose, transmembrane electrical potentials were recorded in cardiac fibroblasts near the sinoatrial node from sham-operated rats and from rats with myocardial infarction.