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Recombinant troponin I substitution and calcium responsiveness in skinned cardiac muscle (1996)

Strauss, J. D. ; Eyk, Jennifer E. Van ; Barth, Zacharias ; [et al.]

Springer

Pflügers Archiv 431 (1996), S. 853-862

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ISSN: 1432-2013

Keywords: Key words Troponin I ; Calcium sensitivity ; Cardiac muscle contraction ; Skinned fibers ; Site-directed mutagenesis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Using treatment with vanadate solutions, we extracted native cardiac troponin I and troponin C (cTnI and cTnC) from skinned fibers of porcine right ventricles. These proteins were replaced by exogenously supplied TnI and TnC isoforms, thereby restoring Ca2+-dependent regulation. Force then depended on the negative logarithm of Ca2+ concentration (pCa) in a sigmoidal manner, the pCa for 50% force development, pCa50, being about 5.5. For reconstitution we used fast-twitch rabbit skeletal muscle TnI and TnC (sTnI and sTnC), bovine cTnI and cTnC or recombinant sTnIs that were altered by site-directed mutagenesis. Incubation with TnI inhibited isometric tension in TnI-extracted fibers in the absence of Ca2+, but restoration of Ca2+ dependence required incubation with both TnI and TnC. Relaxation at low Ca2+ levels and the steepness of the force/pCa relation depended on the concentration of exogenously supplied TnI in the reconstitution solution (range 20–150 μM), while Ca2+ sensitivity, i.e. the pCa50, was dependent on the isoform, and also on the concentration of TnC in the reconstitution solution. At pH 6.7, skinned fibers reconstituted with optimal concentrations of sTnC and sTnI (120 μM and 150 μM, respectively) were more sensitive to Ca2+ than those reconstituted with cTnC and cTnI (difference in pCa50 approx. 0.2 units). Rabbit sTnI was cloned and expressed in Escherichia coli using a high yield expression plasmid. We introduced point mutations into the TnI inhibitory region comprising the sequence of the minimal common TnC/actin binding site (-G104-K-F-K-R-P-P-L-R-R-V-R115-). The four mutants produced by substitution of T for P110, G for P110, G for L111, and G for K105 were chosen, based on previous work with synthetic peptides showing that single amino acid substitution in this region diminished the capacity of these peptides to inhibit acto-S1 ATPase or contraction of skinned fibers. Therefore, all amino acid residues of the inhibitory region are thought to contribute to biological activity of TnI. However, each of the recombinant TnIs could substitute for endogenous TnI. In combination with exogenous TnC, Ca2+ dependence could be restored when gly110sTnI, thr110sTnI or gly111sTnI was used for reconstitution. The mutant gly105sTnI, on the other hand, reduced the ability of skinned fibers to relax at low Ca2+ concentrations and it caused an increase in Ca2+ sensitivity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050077

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Recombinant troponin I substitution and calcium responsiveness in skinned cardiac muscle (1996)

Strauss, John D. ; Eyk, Jennifer E. ; Barth, Zacharias ; [et al.]

Springer

Pflügers Archiv 431 (1996), S. 853-862

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ISSN: 1432-2013

Keywords: Troponin I ; Calcium sensitivity ; Cardiac muscle contraction ; Skinned fibers ; Site-directed mutagenesis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Using treatment with vanadate solutions, we extracted native cardiac troponin I and troponin C (cTnI and cTnC) from skinned fibers of porcine right ventricles. These proteins were replaced by exogenously supplied TnI and TnC isoforms, thereby restoring Ca2+-dependent regulation. Force then depended on the negative logarithm of Ca2+ concentration (pCa) in a sigmoidal manner, the pCa for 50% force development, pCa50, being about 5.5. For reconstitution we used fast-twitch rabbit skeletal muscle TnI and TnC (sTnI and sTnC), bovine cTnI and cTnC or recombinant sTnIs that were altered by site-directed mutagenesis. Incubation with TnI inhibited isometric tension in TnI-extracted fibers in the absence of Ca+, but restoration of Ca2+ dependence required incubation with both TnI and TnC. Relaxation at low Ca2+ levels and the steepness of the force/pCa relation depended on the concentration of exogenously supplied TnI in the reconstitution solution (range 20–150 μM), while Ca2+ sensitivity, i.e. the pCa50, was dependent on the isoform, and also on the concentration of TnC in the reconstitution solution. At pH 6.7, skinned fibers reconstituted with optimal concentrations of sTnC and sTnI (120 μM and 150 μM, respectively) were more sensitive to Ca2+ than those reconstituted with cTnC and cTnI (difference in pCa50 approx. 0.2 units). Rabbit sTnI was cloned and expressed inEscherichia coli using a high yield expression plasmid. We introduced point mutations into the TnI inhibitory region comprising the sequence of the minimal common TnC/actin binding site (-G104-K-F-K-R-P-P-L-R-R-V-R115-). The four mutants produced by substitution of T for P110, G for P110, G for L111 and G for K105 were chosen, based on previous work with synthetic peptides showing that single amino acid substitution in this region diminished the capacity of these peptides to inhibit acto-Si, ATPase or contraction of skinned fibers. Therefore, all amino acid residues of the inhibitory region are thought to contribute to biological activity of TnI. However, each of the recombinant TnIs could substitute for endogenous TnI. In combination with exogenous TnC, Ca2+ dependence could be restored whengly110sTnI,thr110sTnI orgly111sTnI was used for reconstitution. The mutantgly105sTnI, on the other hand, reduced the ability of skinned fibers to relax at low Ca2+ concentrations and it caused an increase in Ca2+ sensitivity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02332169

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Ca2+ sensitizing effects of EMD 53998 after troponin replacement in skinned fibres from porcine atria and ventricles (1995)

Barth, Zacharias ; Strauss, John D. ; Heyder, Susanne ; [et al.]

Springer

Pflügers Archiv 430 (1995), S. 220-229

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ISSN: 1432-2013

Keywords: Ca2+ sensitizer drugs ; EMD 53998 ; Ca2+ sensitivity modulation ; Troponin substitution ; Skinned fibres

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Skinned fibres from porcine ventricles exhibited a higher Ca2+ sensitivity (pCa50, i.e. -log10 Ca2+ concentration required for half-maximal activation, for force generation) than atrial fibres. The thiadiazinone derivative EMD 53998 increased Ca2+ sensitivity and Ca2+ efficacy in both preparations. The drug effect depended on the isoform of troponin (Tn). Using the vanadate method TnI and TnC could be partly extracted and replaced by foreign tropin or by the TnI subunit of added foreign troponins. We investigated the relationship between pCa and force development before and after replacement of TnI with foreign troponin (bovine ventricular troponin, cTn, or rabbit skeletal muscle troponin, sTn) in the presence and absence of EMD 53998. Substitution with bovine cTn increased Ca2+ sensitivity to a value characteristic of bovine ventricular skinned fibres (pCa50=5.4) and was further increased by EMD 53998. Substitution with sTn also increased Ca2+ sensitivity, but subsequent addition of EMD 53998 caused little further increase in Ca2+ sensitivity. Following extraction of TnI with vanadate, skinned fibres contracted in a Ca2+-independent manner and failed to relax at a pCa of 8. Relaxation could be induced, however, by bovine ventricular TnI and rabbit skeletal muscle recombinant TnI. This relaxation could be reversed by EMD 53998 (100 μM). The Ca2+-independent force of contracted fibres could also be depressed by a TnI inhibitory peptide, (cTnI 137–148) and, in addition, this effect was antagonized by EMD 53998. These results suggest that EMD 53998 antagonizes the inhibitory action of TnI, possibly by interfering with the interaction of the TnI inhibitory region with actin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374653

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