Global topology & stability and local structure & dynamics in a synthetic spin-labeled four-helix bundle protein. Academic Article uri icon

abstract

  • A maleimide nitroxide spin-label (MAL-6) linked to a cysteine in the hydrophobic core and a coproporphyrin I (CP) appended on the N-terminus of a synthetic helix-loop-helix peptide ([alpha2]) have been used to examine the designed self-association of a four-helix bundle ([alpha2]2), focusing on the bundle topology and stability and the rotational dynamics of the spin-label. Gel-permeation chromatography demonstrated that the [alpha2] peptide and the peptide modified with a spin-label ([MAL-6-alpha2]), a coproporphyrin ([CP-alpha2]) and a coproporphyrin plus a spin-label ([CP-MAL-6-alpha2]) self-associate into four helix bundles in solution as designed. Circular dichroism (CD) spectra prove that all these peptides are highly alpha-helical, confirmed for [alpha2]2 by Fourier transform infrared (FTIR) spectroscopic analysis. Electron spin resonance (ESR) spectra of the two attached maleimide spin-labels in [MAL-6-alpha2]2 shows their effective rotational correlation time (tau(c)) is 7.3 +/- 0.5 ns, consistent with that expected for the tumbling of the four helix bundle itself, indicating the labels are immobilized. The ESR spectra were also unaltered by aqueous-phase paramagnetic ions, Ni(II), demonstrating all of the spin-labels are buried within the hydrophobic core. The lack of spin-spin interaction between the buried, immobilized spin-labels indicates they are remote (> 15 A) from each other, indicating an antiparallel topology of the monomers in [MAL-6-alpha2]2. The parent [alpha2]2 and the modified [MAL-6-alpha2]2 and [CP-alpha2]2 peptides are highly stable (deltaG(H2O) approximately 25 kcal/mol) as investigated by guanidine hydrochloride denaturation curves monitored by ESR and CD spectroscopies. Guanidine hydrochloride denaturation leads to a shorter correlation time of the spin-label, tau(c) < 1 ns, approaching that of an unrestricted spin-label in solution. In contrast, trifluoroethanol caused dissociation of [MAL-6-alpha2]2 to yield two [MAL-6-alpha2] monomers with retention of secondary structure and changed the tau(c) to 2.5 +/- 0.5 ns, indicating that a significant degree of motional restriction is imposed on the spin-label by the secondary structure. The coproporphyrin probes covalently attached to the N-termini of [CP-alpha2]2 and [CP-MAL-6-alpha2]2 provided evidence that the helical monomers of both were in a parallel orientation, in contrast to the antiparallel orientation determined for [MAL-6-alpha2]2. Consequently, the ESR spectra of [MAL-6-alpha2]2 and [CP-MAL-6-alpha2]2 reveal major structural differences in the local vicinity of the spin-labels due to the topological difference between these two bundles. The ESR spectra of [CP-MAL-6-alpha2]2 contains two distinct nitroxide populations, indicating that one spin-label remains buried in the hydrophobic core and the other is excluded to solvent in this parallel topology. Alleviation of the steric interactions causing one spin-label in [CP-MAL-6-alpha2]2 to be solvent-exposed by addition of [CP-alpha2]2 results in formation of the heterodimeric [CP-alpha2]/[CP-MAL-6-alpha2], as evidenced by insertion of all the spin-labels into hydrophobic cores. The changes in global topology and local structure as evidenced by this pair of spectral probes have relatively minor effects on the course of guanidine denaturation of these bundles.

published proceedings

  • Biochemistry

author list (cited authors)

  • Gibney, B. R., Johansson, J. S., Rabanal, F., Skalicky, J. J., Wand, A. J., & Dutton, P. L.

citation count

  • 62

complete list of authors

  • Gibney, BR||Johansson, JS||Rabanal, F||Skalicky, JJ||Wand, AJ||Dutton, PL

publication date

  • March 1997