Publications by authors named "Mariah H Goodall"
Intermediate filaments (IFs), composed of desmin and keratins, link myofibrils to each other and to the sarcolemma in skeletal muscle. Fast-twitch muscle of mice lacking the IF proteins, desmin and keratin 19 (K19), showed reduced specific force and increased susceptibility to injury in earlier studies. Here we tested the hypothesis that the number of malformed myofibers in mice lacking desmin (Des(-/-)), keratin 19 (K19(-/-)), or both IF proteins (double knockout, DKO) is increased and is coincident with altered excitation-contraction (EC) coupling Ca(2+) kinetics, as reported for mdx mice.
View Article and Find Full Text PDFMuscle strains are one of the most common complaints treated by physicians. A muscle injury is typically diagnosed from the patient history and physical exam alone, however the clinical presentation can vary greatly depending on the extent of injury, the patient's pain tolerance, etc. In patients with muscle injury or muscle disease, assessment of muscle damage is typically limited to clinical signs, such as tenderness, strength, range of motion, and more recently, imaging studies.
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- Recent studies have uncovered that the protein kinase D1 (PKD) phosphorylates key nuclear regulators HDAC5/7 and CREB, linking PKD's function to heart failure progression.
- PKD is primarily localized to the Z-line in cardiac cells and influences Ca(2+) signaling, with its active forms reducing contractile myofilament Ca(2+) sensitivity based on electrical stimulation.
- Dominant negative PKD increases myofilament sensitivity to Ca(2+) and inhibits cTnI phosphorylation, highlighting PKD's role as a dynamic regulator of cardiac contraction.