Veronika Person scite author profile

Muscle cells respond to mechanical stretch stimuli by triggering downstream signals for myocyte growth and survival. The molecular components of the muscle stretch sensor are unknown, and their role in muscle disease is unclear. Here, we present biophysical/biochemical studies in muscle LIM protein (MLP) deficient cardiac muscle that support a selective role for this Z disc protein in mechanical stretch sensing. MLP interacts with and colocalizes with telethonin (T-cap), a titin interacting protein. Further, a human MLP mutation (W4R) associated with dilated cardiomyopathy (DCM) results in a marked defect in T-cap interaction/localization. We propose that a Z disc MLP/T-cap complex is a key component of the in vivo cardiomyocyte stretch sensor machinery, and that defects in the complex can lead to human DCM and associated heart failure.

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The carboxyl‐terminal region of ahnak provides a link between cardiac L‐type Ca²⁺channels and the actinbased cytoskeleton

Hohaus

et al. 2002

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Ahnak is a ubiquitously expressed giant protein of 5643 amino acids implicated in cell differentiation and signal transduction. In a recent study, we demonstrated the association of ahnak with the regulatory beta2 subunit of the cardiac L-type Ca2+ channel. Here we identify the most carboxyl-terminal ahnak region (aa 5262-5643) to interact with recombinant beta2a as well as with beta2 and beta1a isoforms of native muscle Ca2+ channels using a panel of GST fusion proteins. Equilibrium sedimentation analysis revealed Kd values of 55 +/- 11 nM and 328 +/- 24 nM for carboxyl-terminal (aa 195-606) and amino-terminal (aa 1-200) truncates of the beta2a subunit, respectively. The same carboxyl-terminal ahnak region (aa 5262-5643) bound to G-actin and cosedimented with F-actin. Confocal microscopy of human left ventricular tissue localized the carboxyl-terminal ahnak portion to the sarcolemma including the T-tubular system and the intercalated disks of cardiomyocytes. These results suggest that ahnak provides a structural basis for the subsarcolemmal cytoarchitecture and confers the regulatory role of the actin-based cytoskeleton to the L-type Ca2+ channel.

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The carboxyl‐terminal ahnak domain induces actin bundling and stabilizes muscle contraction

et al. 2004

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Ahnak, a 700 kDa protein, is expressed in a variety of cells and has been implicated in different cell-type-specific functions. In the human heart, we observed an endogenous carboxyl-terminal 72 kDa ahnak fragment that copurified with myofibrillar proteins. Immunocytochemistry combined with confocal microscopy localized this fragment to the intercalated discs and close to the Z-line of cardiomyocytes. No endogenous myofibrillar ahnak fragment was observed in the skeletal muscle. We elucidated the role of the recombinant carboxyl-terminal ahnak fragment (ahnak-C2) in actin filament organization and in the function of muscle fibers. Addition of ahnak-C2 to actin filaments induced filament bundling into paracrystalline-like structures as revealed by electron microscopy. Incubation of demembranated skeletal muscle fibers with ahnak-C2 attenuated the decline in isometric force development upon repeated contraction-relaxation cycles. Our results suggest that the carboxyl-terminal ahnak domain exerts a stabilizing effect on muscle contractility via its interaction with actin of thin filaments.

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Regulation of EMAP II by Hypoxia

Matschurat

Knies

Person

et al. 2003

The American Journal of Pathology

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Endothelial-monocyte-activating polypeptide II (EMAP II) is a proinflammatory cytokine and a chemoattractant for monocytes and granulocytes. We have previously shown that EMAP II mRNA is strongly expressed at sites of apoptosis in the mouse embryo and that the mature protein is cleaved from its cellular precursor (proEMAP II/p43) by caspase activation to become released from cells. Here we demonstrate in vivo that EMAP II mRNA expression is strongly increased in tumor necrosis factor alpha (TNF)-treated murine meth A fibrosarcomas and in B16 melanomas, especially in close proximity to areas of tissue necrosis. Furthermore, by means of confocal microscopy, high level expression of proEMAP II/p43 protein correlated predominantly with hypoxic but also with apoptotic cells. In vitro, EMAP II mRNA levels were not increased by hypoxia. However, high amounts of mature EMAP II protein were detected in the supernatants of hypoxic tumor cells. Unlike in apoptotic cells, neither a broad-range caspase inhibitor nor an inhibitor specific for the internal cleavage site was able to inhibit processing of proEMAP II/p43 to the mature EMAP II protein. In conclusion, these data suggest that hypoxia and apoptosis provide two alternative mechanisms of EMAP II generation by tumor cells.

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Time Course of the Apoptotic Cascade and Effects of Caspase Inhibitors in Adult Rat Ventricular Cardiomyocytes

Suzuki¹,

Kostin²,

Person³

et al. 2001

Journal of Molecular and Cellular Cardiology

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Veronika Person

The Cardiac Mechanical Stretch Sensor Machinery Involves a Z Disc Complex that Is Defective in a Subset of Human Dilated Cardiomyopathy

The carboxyl‐terminal region of ahnak provides a link between cardiac L‐type Ca²⁺channels and the actinbased cytoskeleton

The carboxyl‐terminal ahnak domain induces actin bundling and stabilizes muscle contraction

Regulation of EMAP II by Hypoxia

Time Course of the Apoptotic Cascade and Effects of Caspase Inhibitors in Adult Rat Ventricular Cardiomyocytes

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Veronika Person

The Cardiac Mechanical Stretch Sensor Machinery Involves a Z Disc Complex that Is Defective in a Subset of Human Dilated Cardiomyopathy

The carboxyl‐terminal region of ahnak provides a link between cardiac L‐type Ca2+channels and the actinbased cytoskeleton

The carboxyl‐terminal ahnak domain induces actin bundling and stabilizes muscle contraction

Regulation of EMAP II by Hypoxia

Time Course of the Apoptotic Cascade and Effects of Caspase Inhibitors in Adult Rat Ventricular Cardiomyocytes

Contact Info

Product

Resources

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The carboxyl‐terminal region of ahnak provides a link between cardiac L‐type Ca²⁺channels and the actinbased cytoskeleton