Angela Koller scite author profile

Mice deficient in the smooth muscle Cav1.2 calcium channel (SMACKO, smooth muscle alpha1c-subunit calcium channel knockout) have a severely reduced micturition and an increased bladder mass. L-type calcium current, protein, and spontaneous contractile activity were absent in the bladder of SMACKO mice. K+ and carbachol (CCh)-induced contractions were reduced to 10-fold in detrusor muscles from SMACKO mice. The dihydropyridine isradipine inhibited K+- and CCh-induced contractions of muscles from CTR but had no effect in muscles from SMACKO mice. CCh-induced contraction was blocked by removing extracellular Ca2+ but was unaffected by the PLC inhibitor U73122 or depletion of intracellular Ca2+ stores by thapsigargin. In muscles from CTR and SMACKO mice, CCh-induced contraction was partially inhibited by the Rho-kinase inhibitor Y27632. These results show that the Cav1.2 Ca2+ channel is essential for normal bladder function. The Rho-kinase and Ca2+-release pathways cannot compensate the lack of the L-type Ca2+ channel.

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Control of intestinal motility by the Ca_v1.2 L‐type calcium channel in mice

Wegener

Schulla

Koller

et al. 2006

FASEB j.

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The Ca(v)1.2 L-type Ca2+ channel is the dominant voltage-activated Ca2+ channel in heart and smooth muscle. The functional significance of this channel was studied in intestinal smooth muscle from mice carrying a smooth muscle-specific, conditional inactivation of the Ca(v)1.2 gene (Ca(v)1.2SMACKO mice). Inactivation was complete within 4 wk after tamoxifen treatment and confirmed by RT-PCR, Western blot and functional analysis. Ca(v)1.2SMACKO mice show reduced feces excretion, absence of rhythmic contractions in small and large intestinal muscle and signs of paralytic ileus. Extracellular field stimulation evoked smaller contractions in jejunum muscles from Ca(v)1.2SMACKO than from CTR mice, whereas carbachol-induced contractions of similar magnitude in both muscles. The Ca2+ needed for contraction in jejunum was provided mainly by Ca(v)1.2 channels and by store-operated channels in muscles from CTR and Ca(v)1.2SMACKO mice, respectively. In conclusion, the Ca(v)1.2 channel is essential for electromechanical coupling and important for pharmaco-mechanical coupling in intestinal smooth muscle and cannot be substituted functionally by other Ca2+ entry pathways.

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Association of phospholamban with a cGMP kinase signaling complex

Koller¹,

Schlossmann²,

Ashman³

et al. 2003

Biochemical and Biophysical Research Communications

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Precision and variance components in quantitative gel electrophoresis

Koller

Wätzig

2005

Electrophoresis

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The error in quantitative gel electrophoresis/Western blotting was investigated considering the purity testing of erythropoietin. The overall error was over 35% relative standard deviation. However, an analysis of variance elucidated that the interoperator variability was the dominant error source, which already explained almost 80% of the total variance. Careful compilation and investigation of the possible error sources strongly indicates that the immunoreaction after blotting and the subsequent color reaction are the major error sources in this case.

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Angela Koller

An essential role of Ca_v1.2 L‐type calcium channel for urinary bladder function

Control of intestinal motility by the Ca_v1.2 L‐type calcium channel in mice

Association of phospholamban with a cGMP kinase signaling complex

Precision and variance components in quantitative gel electrophoresis

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Angela Koller

An essential role of Cav1.2 L‐type calcium channel for urinary bladder function

Control of intestinal motility by the Cav1.2 L‐type calcium channel in mice

Association of phospholamban with a cGMP kinase signaling complex

Precision and variance components in quantitative gel electrophoresis

Contact Info

Product

Resources

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An essential role of Ca_v1.2 L‐type calcium channel for urinary bladder function

Control of intestinal motility by the Ca_v1.2 L‐type calcium channel in mice