Sarah Appel scite author profile

Smooth muscle contractile activity is a major regulator of function of the vascular system, respiratory system, gastrointestinal system and the genitourinary systems. Malfunction of contractility in these systems leads to a host of clinical disorders, and yet, we still have major gaps in our understanding of the molecular mechanisms by which contractility of the differentiated smooth muscle cell is regulated. This review will summarize recent advances in the molecular understanding of the regulation of smooth muscle myosin activity via phosphorylation/dephosphorylation of myosin, the regulation of the accessibility of actin to myosin via the actin-binding proteins calponin and caldesmon, and the remodelling of the actin cytoskeleton. Understanding of the molecular ‘players’ should identify target molecules that could point the way to novel drug discovery programs for the treatment of smooth muscle disorders such as cardiovascular disease, asthma, functional bowel disease and pre-term labour.

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Depressed Interferon Gamma Production and Monocyte HLA-DR Expression After Severe Injury

Livingston

Appel²,

Wellhausen³

et al. 1988

Arch Surg

186

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Binding of Par-4 to the actin cytoskeleton is essential for Par-4/Dlk-mediated apoptosis

Vetterkind

Illenberger

Kubíček³

et al. 2005

Experimental Cell Research

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The Two-Edged Sword of Large-Dose Steroids for Spinal Cord Trauma

et al. 1993

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These data do not permit a judgment to be made whether neurologic status was improved by S administration. It is known that vital immune responses were adversely affected, that pneumonia was somewhat more prevalent, and that hospitalization was prolonged and costs therefore increased by an average of $51,504 per admission. Further clinical studies will be needed to determine to what extent these observations offset the putative benefits of large-dose steroids in the treatment of spinal trauma.

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Effect of Maternal Obesity in Mice on IL-6 Levels and Placental Endothelial Cell Homeostasis

et al. 2020

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Obesity during pregnancy is a known health risk for mother and child. Since obesity is associated with increased inflammatory markers, our objectives were to determine interleukin-6 (IL-6) levels in obese mice and to examine the effect of IL-6 on placental endothelial cells. Placentas, blood, and adipose tissue of C57BL/6N mice, kept on high fat diet before and during pregnancy, were harvested at E15.5. Serum IL-6 levels were determined and endothelial cell markers and IL-6 expression were measured by qRT-PCR and western blot. Immunostaining was used to determine surface and length densities of fetal capillary profiles and placental endothelial cell homeostasis. Human placental vein endothelial cells were cultured and subjected to proliferation, apoptosis, senescence, and tube formation assays after stimulation with hyperIL-6. Placental endothelial cell markers were downregulated and the percentage of senescent endothelial cells was higher in the placental exchange zone of obese dams and placental vascularization was strongly reduced. Additionally, maternal IL-6 serum levels and IL-6 protein levels in adipose tissue were increased. Stimulation with hyperIL-6 provoked a dose dependent increase of senescence in cultured endothelial cells without any effects on proliferation or apoptosis. Diet-induced maternal obesity led to an IUGR phenotype accompanied by increased maternal IL-6 serum levels. In the placenta of obese dams, this may result in a disturbed endothelial cell homeostasis and impaired fetal vasculature. Cell culture experiments confirmed that IL-6 is capable of inducing endothelial cell senescence.

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Sarah Appel

Smooth muscle signalling pathways in health and disease

Depressed Interferon Gamma Production and Monocyte HLA-DR Expression After Severe Injury

Binding of Par-4 to the actin cytoskeleton is essential for Par-4/Dlk-mediated apoptosis

The Two-Edged Sword of Large-Dose Steroids for Spinal Cord Trauma

Effect of Maternal Obesity in Mice on IL-6 Levels and Placental Endothelial Cell Homeostasis

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