Dong Wj scite author profile

Phosphorylation of two adjacent serine residues in the unique N-terminal extension of cardiac muscle troponin I (cTnI) is known to decrease the Ca2+-sensitivity of cardiac myofilaments. To probe the structural significance of the N-terminal extension, we have constructed two cTnI mutants each containing a single cysteine: (1) a full-length cTnI mutant (S5C/C81I/C98S) and (2) a truncated cTnI mutant (S9C/C50I/C67S) in which the N-terminal 32 amino acid residues were deleted. We determined the apparent binding constants for the complex formation between IAANS-labeled cardiac troponin C (cTnC) and the two cTnI mutants. The affinities of the cTnC for the truncated cTnI mutant were: (1) 1.5 x 10(6) M(-1) in EGTA, (2) 28.9 x 10(6) M(-1) in Mg2+, and (3) 87.5 x 10(6) M(-1) in Mg2+ + Ca2+. These binding constants were approximately 1.4-fold smaller than the corresponding values obtained with the full-length cTnI mutant, suggesting a very small contribution of the N-terminal extension to the binding of cTnI to cTnC. Cys-5 in the full-length cTnI mutant was labeled with IAANS, and the distribution of the separation between this site and Trp-192 was determined by analysis of the efficiency of fluorescence resonance energy transfer from Trp-192 to IAANS. The following mean distances were obtained with the unphosphorylated full-length mutant: 44.4 A (cTnI alone), 48.3 A (cTnI + cTnC), 46.3 A (cTnI + cTnC in Mg2+), and 51.6 A (cTnI + cTnC in Mg2+ + Ca2+). The corresponding values of the mean distance determined with the phosphorylated full-length cTnI mutant were 35.8, 36.6, 34.8, and 37.3 A. The phosphorylation of cTnI reduced the half-width of the distribution from 9.5 to 3.7 A. Similar but less pronounced decreases of the half-widths were also observed with the phosphorylated cTnI complexed with cTnC in different ionic conditions. Thus, phosphorylation of cTnI resulted in a decrease of 9-12 A in the mean distance between the sites located at the N- and C-terminal portion of cTnI. Our results indicate that phosphorylation elicits a change in the conformation of cTnI which underlies the basis of the phosphorylation-induced modulation of cTnI activity.

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Conformation of the N-Terminal Segment of a Monocysteine Mutant of Troponin I from Cardiac Muscle

Chandra

Xing

et al. 1997

Biochemistry

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A monocysteine mutant of cardiac muscle troponin I, cTnI(S5C/C81I/C98S), was generated from a mouse cTnI cDNA clone and expressed in a bacterial system. Cys-5 was modified with the fluorescent sulfhydryl reagent IAANS to probe the conformation of the N-terminal extension of the mutant and the mutant complexed with cardiac muscle troponin C. Our emphasis was on the effect of phosphorylation of Ser-23 and Ser-24 by protein kinase A on the conformation of the N-terminal segment. Phosphorylation resulted in an 8-nm red-shift of the emission spectrum of the attached IAANS probe and a reduction of its quantum yield by a factor of 4-5. The intensity decay of nonphosphorylated IAANS-labeled mutant was complex and had to be described by a sum of three exponential terms, with lifetimes in the range 0.1-5 ns. A fourth component in the range 7-9 ns was required to describe the intensity decay of the phosphorylated mutant. Phosphorylation also reduced the weighted mean lifetime, consistent with the changes observed in the steady-state fluorescence parameters and a 33% decrease in the global rotational correlation time calculated from anisotropy decay data. This change in correlation time suggested a decrease in the axial ratio of the protein. The fluorescence changes of the labeled mutant induced by phosphorylation were carried over to its complex with troponin C. The Stern-Volmer plots of acrylamide quenching of the steady-state fluorescence were essentially linear for nonphosphorylated mutant but displayed pronounced concave downward curvatures for the phosphorylated protein under all conditions studied. The present results are interpreted in terms of a more compact hydrodynamic shape of the phosphorylated cTnI mutant and are consistent with a folded conformation of the N-terminal extension induced by phosphorylation of the two serines. These conformational changes may play a role in the modulation of cardiac muscle contractility by troponin I phosphorylation.

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Dong Wj

Phosphorylation-Induced Distance Change in a Cardiac Muscle Troponin I Mutant

Conformation of the N-Terminal Segment of a Monocysteine Mutant of Troponin I from Cardiac Muscle

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