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Smooth Muscle Fibres (smooth + muscle_fibre)

Distribution by Scientific Domains
Medical Sciences75%

Selected Abstracts

Functions of erg K+ channels in excitable cells

JOURNAL OF CELLULAR AND MOLECULAR MEDICINE, Issue 1 2004
Jürgen R. Schwarz
Abstract Ether-à-go-go -related gene (erg) channels are voltage-dependent K+ channels mediating inward-rectifying K+ currents because of their peculiar gating kinetics. These characteristics are essential for repolarization of the cardiac action potential. Inherited and acquired malfunctioning of erg channels may lead to the long QT-syndrome. However, erg currents have also been recorded in many other excitable cells, like smooth muscle fibres of the gastrointestinal tract, neuroblastoma cells or neuroendocrine cells. In these cells erg currents contribute to the maintenance of the resting potential. Changes in the resting potential are related to cell-specific functions like increase in hormone secretion, frequency adaptation or increase in contractility. [source]

Modulation of substance P and somatostatin receptors in cutaneous lymphocytic inflammatory and tumoral infiltrates

JOURNAL OF THE EUROPEAN ACADEMY OF DERMATOLOGY & VENEREOLOGY, Issue 3 2001
L Misery
Abstract Background The expression of receptors for neuropeptides in the skin is modified in skin diseases. Objective We studied the cutaneous expression of substance P (SP) and somatostatin (SOM) receptors (SPR and SSTR, respectively) in skin affected by cutaneous inflammatory or tumoral T-cell infiltrates because these two neuropeptides are the ones most involved in inflammation. Methods We revealed expression of these receptors using a binding in situ technique that gave highly specific results. Skin biopsies were incubated with biotinylated neuropeptides (SP or SOM). Results In normal skin, SSTR were observed on blood vessels, smooth muscle fibres and sweat glands. SSTR expression was modified only when expressed by keratinocytes in Ofuji papuloerythroderma and by plasmocytes in plasmocytoma. SPR distribution was not modified in subjects with atopic dermatitis or lupus. The expression of SPR in the epidermis was diminished in Ofuji papuloerythroderma and parapsoriasis and absent in mycosis fungoides. Conclusions These results suggest that malignant lymphocytic infiltrates can inhibit SPR expression on keratinocytes. [source]

Clinical and Histological Aspects of CNV Formation: Studies in an Animal Model

ACTA OPHTHALMOLOGICA, Issue thesis2 2008
Nathan Lassota MD
Abstract. The purpose of the present thesis was to develop an animal model of CNV in order to study the early formation of CNV and to test the effects of an anti-angiogenic treatment. Porcine eyes were chosen as a substrate for CNV induction, since they are similar to human eyes in terms of both macroscopic and microscopic morphology. However, a major difference is that pigs lack a fovea; instead they have a visual streak, with a relatively stable and high concentration of cones. By surgical perforation of Bruch's membrane we were able to induce formation of CNV membranes. The morphology and cellular composition of these membranes varied with the surgical technique employed. When RPE cells were locally removed at the time of perforation, the resulting CNV was thinner, contained fewer blood vessels and was less prone to leak on fluorescein angiography than when RPE cells were left intact at induction. The neuroretina overlying the perforation site was not damaged by any of the surgical techniques, thus allowing the subsequent retinal damage to be ascribed to the actual process of CNV formation. Using this animal model allowed us to directly map histological findings onto fluorescein angiograms and thereby perform meaningful correlations between histopathologic and photographic features. Such correlations have been hampered in human subjects, since human eyes are not enucleated as a consequence of CNV and are therefore only available for post-mortem studies. In such studies there often is a considerable time-gap between the death of the patient and the latest available fluorescein angiogram, thereby allowing macular pathology to evolve in the interim. Histological examination of the porcine membranes demonstrated that they were composed of RPE cells, glial cells, macrophages, endothelial cells, collagen and smooth muscle fibres, which are the same cellular and fibrillar elements that dominate human CNV membranes. The porcine model was applied to test the effects, in a randomized and masked fashion, of intravitreally injected bevacizumab. Bevacizumab, a pan VEGF A antibody, was found to reduce both the proliferation of endothelial cells in CNV membranes and the propensity to leak in fluorescein angiograms. Immunohistochemically, bevacizumab was detected in the inner limiting membrane, in retinal blood vessels and binding uniformly to the entire CNV membrane without any cellular predisposition. Based on the above findings we believe that the porcine CNV model shows a bearing to human disease and therefore might be used as a tool to obtain improved treatments for this debilitating condition. [source]

Adrenergic and Cholinergic Innervation of the Mammary Gland in the Pig

ANATOMIA, HISTOLOGIA, EMBRYOLOGIA, Issue 1 2002
A. FRANKE-RADOWIECKA
Adrenergic and acetylcholinesterase-positive (AChE-positive) innervation of the mammary gland in the sexually immature and mature pigs was studied using histochemical methods. Upon examining the adrenergic and cholinergic innervation, the adrenergic innervation was found to be much more developed. The majority of both sub-populations of the nerve fibres studied was localized in the subcutaneous tissue of the mammary gland. Adrenergic and AChE-positive nerve fibres also supplied structures of the nipple (subcutaneous tissue, blood vessels, smooth muscles fibres) and glandular tissue (blood vessels, lactiferous ducts). The glandular tissue contained the smallest number of adrenergic and AChE-positive nerve fibres. No distinct differences were observed in the adrenergic and AChE-positive innervation of the porcine mammary gland between the juvenile and non-pregnant adult animals. [source]