Molecular Determinants of Calcium-Dependent Inactivation in Cardiac L-Type Calcium Channels
We investigated the nature and structural requirements for Ca 2+-dependent inactivation of cardiac L-type Ca 2+ channel. Investigation of subunit requirements indicates that the interaction of α 1 subunit with ancillary subunits, especially β subunit, is important for this property. Replacement of t...
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| Published in | Biochemical and biophysical research communications Vol. 201; no. 3; pp. 1117 - 1123 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Elsevier Inc
30.06.1994
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| Subjects | |
| Online Access | Get full text |
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| Abstract | We investigated the nature and structural requirements for Ca
2+-dependent inactivation of cardiac L-type Ca
2+ channel. Investigation of subunit requirements indicates that the interaction of α
1 subunit with ancillary subunits, especially β subunit, is important for this property. Replacement of the putative cytoplasmic regions of the cardiac α
1 subunit with skeletal muscle counterparts eliminates Ca
2+-dependent inactivation, indicating that the site regulated by Ca
2+ resides in the cytoplasmic region of the α
1 subunit. Deletion of the carboxy-terminal region of the cardiac α
1 subunit does not eliminate this property, suggesting that the modulation by protein kinase A may not be involved in this mechanism. Single amino acid substitution that strongly reduces Ca
2+ selectivity of Ca
2+ channels also eliminates Ca
2+-dependent inactivation, suggesting the close link between the ion selectivity and Ca
2+-dependent inactivation. |
|---|---|
| AbstractList | We investigated the nature and structural requirements for Ca(2+)-dependent inactivation of cardiac L-type Ca2+ channel. Investigation of subunit requirements indicates that the interaction of alpha 1 subunit with ancillary subunits, especially beta subunit, is important for this property. Replacement of the putative cytoplasmic regions of the cardiac alpha 1 subunit with skeletal muscle counterparts eliminates Ca(2+)-dependent inactivation, indicating that the site regulated by Ca2+ resides in the cytoplasmic region of the alpha 1 subunit. Deletion of the carboxy-terminal region of the cardiac alpha 1 subunit does not eliminate this property, suggesting that the modulation by protein kinase A may not be involved in this mechanism. Single amino acid substitution that strongly reduces Ca2+ selectivity of Ca2+ channels also eliminates Ca(2+)-dependent inactivation, suggesting the close link between the ion selectivity and Ca(2+)-dependent inactivation. We investigated the nature and structural requirements for Ca super(2+)-dependent inactivation of cardiac L-type Ca super(2+) channel. Investigation of subunit requirements indicates that the interaction of alpha sub(1) subunit with ancillary subunits, especially beta subunit, is important for this property. Replacement of the putative cytoplasmic regions of the cardiac alpha sub(1) subunit with skeletal muscle counterparts eliminates Ca super(2+)-dependent inactivation, indicating that the site regulated by Ca super(2+) resides in the cytoplasmic region of the alpha sub(1) subunit. Deletion of the carboxy-terminal region of the cardiac alpha sub(1) subunit does not eliminate this property, suggesting that the modulation by protein kinase A may not be involved in this mechanism. Single amino acid substitution that strongly reduces Ca super(2+) selectivity of Ca super(2+) channels also eliminates Ca super(2+)-dependent inactivation, suggesting the close link between the ion selectivity and Ca super(2+)-dependent inactivation. We investigated the nature and structural requirements for Ca 2+-dependent inactivation of cardiac L-type Ca 2+ channel. Investigation of subunit requirements indicates that the interaction of α 1 subunit with ancillary subunits, especially β subunit, is important for this property. Replacement of the putative cytoplasmic regions of the cardiac α 1 subunit with skeletal muscle counterparts eliminates Ca 2+-dependent inactivation, indicating that the site regulated by Ca 2+ resides in the cytoplasmic region of the α 1 subunit. Deletion of the carboxy-terminal region of the cardiac α 1 subunit does not eliminate this property, suggesting that the modulation by protein kinase A may not be involved in this mechanism. Single amino acid substitution that strongly reduces Ca 2+ selectivity of Ca 2+ channels also eliminates Ca 2+-dependent inactivation, suggesting the close link between the ion selectivity and Ca 2+-dependent inactivation. |
| Author | Zong, Z.Q. Zhou, J.Y. Tanabe, T. |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/8024553$$D View this record in MEDLINE/PubMed |
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| Snippet | We investigated the nature and structural requirements for Ca
2+-dependent inactivation of cardiac L-type Ca
2+ channel. Investigation of subunit requirements... We investigated the nature and structural requirements for Ca(2+)-dependent inactivation of cardiac L-type Ca2+ channel. Investigation of subunit requirements... We investigated the nature and structural requirements for Ca super(2+)-dependent inactivation of cardiac L-type Ca super(2+) channel. Investigation of subunit... |
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| SubjectTerms | Calcium - pharmacology Calcium - physiology Calcium Channels - drug effects Cell Line Electric Conductivity Humans In Vitro Techniques Ion Channel Gating - drug effects Recombinant Proteins |
| Title | Molecular Determinants of Calcium-Dependent Inactivation in Cardiac L-Type Calcium Channels |
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