Structural basis of the allosteric trigger of the Hsp70 chaperone proteins.

This work solves a decades-old dilemma that stood in the way of understanding the allosteric mechanism of Hsp70 (heat shock 70 kDa) chaperone proteins. Hsp70s are central to protein folding, refolding, and trafficking in organisms ranging from Archae to Homo Sapiens, both at normal and at stressed cellular conditions. Hsp70s are comprised of two main domains: a 44 kDa N-terminal nucleotide-binding domain (NBD), and a 25 kDa substrate-binding domain (SBD) that harbors the substrate binding site. The nucleotide binding site in the NBD and the substrate binding site in the SBD are allosterically linked: ADP binding promotes substrate binding, while ATP binding promotes substrate release. It has long been a goal of structural biology to characterize the nature of the allosteric coupling in these proteins. However, even the most sophisticated X-ray crystallography studies of the isolated NBD could show no difference in overall conformation between the ATP and ADP state. Hence the dilemma: how is the state of the nucleotide communicated between NBD and SBD? The solution of the dilemma is especially interesting in light of the fact that Hsp70s are ancient proteins, and amongst the first allosteric proteins in nature.Here we report a solution NMR study of the NBD of the Hsp70 from Thermus thermophilus, in the APO, ADP and AMP-PNP states, where the latter is a non-hydrolysable ATP analogue. Using the modern NMR methods of residual dipolar coupling analysis, we discovered that the nucleotide binding cleft opens up by as much as 20 degrees between the AMP-PNP (closed) and ADP (open) state. We also discover that a surface cleft, hypothesized to be essential for the allosteric coupling between NBD and SBD, echoes these changes. Hence, the nature of the allosteric trigger and coupling for Hsp70 chaperones is revealed here for the first time, solving the dilemma

HCCH-TOCSY spectroscopy of 13 C-labeled proteins in H 2 O using heteronuclear cross-polarization and pulsed-field gradients

A pulsed-field gradient-enhanced, heteronuclear cross-polarization-driven, 3D HCCH-TOCSY experiment is described, which in a single scan can achieve nearly ideal solvent suppression for protein samples in H 2 O solution. The 3D experiment can be transformed without additional pre- or post-processing, thus leaving solute resonances at the solvent resonance position undisturbed and easily identifiable. As the gradients are used in combination with a 13 C z-filter, only minimal relaxation losses are encountered as compared to non-gradient versions.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/43051/1/10858_2004_Article_BF00208812.pd

Letter to the Editor: TROSY-driven NMR backbone assignments of the 381-residue nucleotide-binding domain of the Thermus Thermophilus DnaK molecular chaperone

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/43049/1/10858_2004_Article_5381536.pd

Protein/Protein Interactions in the Mammalian Heme Degradation Pathway: Heme Oxygenase-2, Cytochrome P450 Reductase, and Biliverdin Reductase

Heme oxygenase (HO) catalyzes the rate-limiting step in the O2- dependent degradation of heme to biliverdin, CO, and iron with electrons delivered from NADPH via cytochrome P450 reductase (CPR). Biliverdin reductase (BVR) then catalyzes conversion of bili­verdin to bilirubin. We describe mutagenesis combined with kinetic, spectroscopic (fluorescence and NMR), surface plasmon resonance, cross-linking, gel filtration, and analytical ultracentrifugation studies aimed at evaluating interactions of HO-2 with CPR and BVR. Based on these results, we propose a model in which HO-2 and CPR form a dynamic ensemble of complex(es) that precede formation of the productive electron transfer complex. The 1H-15N TROSY NMR spectrum of HO-2 reveals specific residues, including Leu-201, near the heme face of HO-2 that are affected by the addition of CPR, im­plicating these residues at the HO/CPR interface. Alanine substitu­tions at HO-2 residues Leu-201 and Lys-169 cause a respective 3- and 22-fold increase in Km values for CPR, consistent with a role for these residues in CPR binding. Sedimentation velocity experiments confirm the transient nature of the HO-2·CPR complex (Kd = 15.1 μm). Our results also indicate that HO-2 and BVR form a very weak complex that is only captured by cross-linking. For example, under conditions where CPR affects the 1H-15N TROSY NMR spectrum of HO-2, BVR has no effect. Fluorescence quenching experiments also suggest that BVR binds HO-2 weakly, if at all, and that the previously reported high affinity of BVR for HO is artifactual, resulting from the effects of free heme (dissociated from HO) on BVR fluorescenc

Protein/Protein Interactions in the Mammalian Heme Degradation Pathway: Heme Oxygenase-2, Cytochrome P450 Reductase, and Biliverdin Reductase

Heme oxygenase (HO) catalyzes the rate-limiting step in the O2- dependent degradation of heme to biliverdin, CO, and iron with electrons delivered from NADPH via cytochrome P450 reductase (CPR). Biliverdin reductase (BVR) then catalyzes conversion of bili­verdin to bilirubin. We describe mutagenesis combined with kinetic, spectroscopic (fluorescence and NMR), surface plasmon resonance, cross-linking, gel filtration, and analytical ultracentrifugation studies aimed at evaluating interactions of HO-2 with CPR and BVR. Based on these results, we propose a model in which HO-2 and CPR form a dynamic ensemble of complex(es) that precede formation of the productive electron transfer complex. The 1H-15N TROSY NMR spectrum of HO-2 reveals specific residues, including Leu-201, near the heme face of HO-2 that are affected by the addition of CPR, im­plicating these residues at the HO/CPR interface. Alanine substitu­tions at HO-2 residues Leu-201 and Lys-169 cause a respective 3- and 22-fold increase in Km values for CPR, consistent with a role for these residues in CPR binding. Sedimentation velocity experiments confirm the transient nature of the HO-2·CPR complex (Kd = 15.1 μm). Our results also indicate that HO-2 and BVR form a very weak complex that is only captured by cross-linking. For example, under conditions where CPR affects the 1H-15N TROSY NMR spectrum of HO-2, BVR has no effect. Fluorescence quenching experiments also suggest that BVR binds HO-2 weakly, if at all, and that the previously reported high affinity of BVR for HO is artifactual, resulting from the effects of free heme (dissociated from HO) on BVR fluorescenc

Study of protein dynamics in solution by measurement of 13 C α - 13 CO NOE and 13 CO longitudinal relaxation

13 C α - 13 CO homonuclear NOE and 13 CO T 1 relaxation were measured for a 20 kDa protein using tripleresonance pulse sequences. The experiments were sufficiently sensitive to obtain statistically significant differences in relaxation parameters over the molecule. The 13 C α - 13 CO cross-relaxation rate, obtained from these data, is directly proportional to an order parameter describing local motion and it is largely independent of the local correlation time. It is therefore a relatively straightforward observable for the identification of local dynamics.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/43052/1/10858_2004_Article_BF00203826.pd

Band-selective hetero- and homonuclear cross-polarization using trains of shaped pulses

The performance of solution cross-polarization using trains of shaped pulses on two channels is investigated by computer simulation and experiment. It is determined that a Waltz modulation pattern of Gaussian pulses of individual flip angles of 225°, issued to two coupled spins simulatneously, yields excellent coherence transfer with good phasing behavior. Simulations and experimental verification were carried out for both heteronuclear cross-polarization between two restricted areas (e.g. 1 H α − 13 C α ) and for homonuclear cross-polarization between two spectral regions (e.g. 13 CO− 13 C α ). It is shown that shaped cross-polarization behaves as pure heteronuclear cross-polarization when the two radiofrequency (rf) fields are far apart, while it behaves in some aspects analogous to homonuclear cross-polarization when the two rf fields approach each other. The novel coherence-transfer sequence, referred to as ‘cosine-modulated shaped Waltz’ (CSW), was implemented in a 3D (H)C(CCO)NH experiment using an 18-kDa isotopically labeled protein.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/43054/1/10858_2004_Article_BF00211161.pd

Sensitivity improvement in 2D and 3D HCCH spectroscopy using heteronuclear cross-polarization

A new method, which employs a sequence of heteronuclear-homonuclear-heteronuclear Hartmann-Hahn (HEHOHEHAHA) cross-polarization steps for obtaining through-bond H-C-C-H correlations in larger proteins (M r > 15 kDa), is presented. The method has significantly higher sensitivity compared to INEPTHOHAHA-INEPT-based techniques. An additional feature of this experiment is that well-phaseable spectra may be obtained with a minimal (4-step) phase cycle and, consequently, experimental time can be utilized towards obtaining high resolution in indirect dimensions. Results from 2D and 3D HEHOHEHAHA experiments on T4-lysozyme are presented.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/43047/1/10858_2004_Article_BF00176006.pd

CASA: An Efficient Automated Assignment of Protein Mainchain NMR Data Using an Ordered Tree Search Algorithm

Rapid analysis of protein structure, interaction, and dynamics requires fast and automated assignments of 3D protein backbone triple-resonance NMR spectra. We introduce a new depth-first ordered tree search method of automated assignment, CASA, which uses hand-edited peak-pick lists of a flexible number of triple resonance experiments. The computer program was tested on 13 artificially simulated peak lists for proteins up to 723 residues, as well as on the experimental data for four proteins. Under reasonable tolerances, it generated assignments that correspond to the ones reported in the literature within a few minutes of CPU time. The program was also tested on the proteins analyzed by other methods, with both simulated and experimental peaklists, and it could generate good assignments in all relevant cases. The robustness was further tested under various situations.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/43050/1/10858_2005_Article_4079.pd