The English (H6R) familial Alzheimer's disease mutation facilitates zinc-induced dimerization of the amyloid-ß metal-binding domain.

Interaction of Zn(2+) with the metal-binding domain of the English (H6R) amyloid-ß mutant results in the formation of peptide dimers. The mutation causes the exclusion of His6 from the zinc chelation pattern observed in the intact domain and triggers the assembly of the dimers via zinc ions coordinated by (11)EVHH(14) fragments.

Microtubule-associated proteins and tubulin interaction by isothermal titration calorimetry.

Microtubules play an important role in a number of vital cell processes such as cell division, intracellular transport, and cell architecture. The highly dynamic structure of microtubules is tightly regulated by a number of stabilizing and destabilizing microtubule-associated proteins (MAPs), such as tau and stathmin. Because of their importance, tubulin-MAPs interactions have been extensively studied using various methods that provide researchers with complementary but sometimes contradictory thermodynamic data. Isothermal titration calorimetry (ITC) is the only direct thermodynamic method that enables a full thermodynamic characterization (stoichiometry, enthalpy, entropy of binding, and association constant) of the interaction after a single titration experiment. This method has been recently applied to study tubulin-MAPs interactions in order to bring new insights into molecular mechanisms of tubulin regulation. In this chapter, we review the technical specificity of this method and then focus on the use of ITC in the investigation of tubulin-MAPs binding. We describe technical issues which could arise during planning and carrying out the ITC experiments, in particular with fragile proteins such as tubulin. Using examples of stathmin and tau, we demonstrate how ITC can be used to gain major insights into tubulin-MAP interaction.

Peripherally applied synthetic peptide isoAsp7-Aß(1-42) triggers cerebral ß-amyloidosis.

Intracerebral and intraperitoneal inoculation with ß-amyloid-rich brain extracts originating from patients with Alzheimer's disease as well as intracerebral injection of aggregates composed of synthetic Aß can induce cerebral ß-amyloidosis, and associated cognitive dysfunctions in susceptible animal hosts. We have found that repetitive intravenous administration of 100 µg of synthetic peptide corresponding to isoAsp7-containing Aß(1-42), an abundant age-dependent Aß isoform present both in the pathological brain and in synthetic Aß preparations, robustly accelerates formation of classic dense-core congophilic amyloid plaques in the brain of ß-amyloid precursor protein transgenic mice. Our findings indicate this peptide as an inductive agent of cerebral ß-amyloidosis in vivo.

Folding units in calcium vector protein of amphioxus: Structural and functional properties of its amino- and carboxy-terminal halves.

Muscle of amphioxus contains large amounts of a four EF-hand Ca2+-binding protein, CaVP, and its target, CaVPT. To study the domain structure of CaVP and assess the structurally important determinants for its interaction with CaVPT, we expressed CaVP and its amino (N-CaVP) and carboxy-terminal halves (C-CaVP). The interactive properties of recombinant and wild-type CaVP are very similar, despite three post-translational modifications in the wild-type protein. N-CaVP does not bind Ca2+, shows a well-formed hydrophobic core, and melts at 44 degrees C. C-CaVP binds two Ca2+ with intrinsic dissociation constants of 0.22 and 140 microM (i.e., very similar to the entire CaVP). The metal-free domain in CaVP and C-CaVP shows no distinct melting transition, whereas its 1Ca2+ and 2Ca2+) forms melt in the 111 degrees -123 degrees C range, suggesting that C-CaVP and the carboxy- domain of CaVP are natively unfolded in the metal-free state and progressively gain structure upon binding of 1Ca2+ and 2Ca2+. Thermal denaturation studies provide evidence for interdomain interaction: the apo, 1Ca2+ and 2Ca2+ states of the carboxy-domain destabilize to different degrees the amino-domain. Only C-CaVP forms a Ca2+-dependent 1:1 complex with CaVPT. Our results suggest that the carboxy-terminal domain of CaVP interacts with CaVPT and that the amino-terminal lobe modulates this interaction.

Calmodulin-peptide interactions: apocalmodulin binding to the myosin light chain kinase target-site.

Noncovalent binding of the synthetic peptide RS20 to calmodulin in the presence of calcium was confirmed by electrospray ionization coupled with Fourier transform ion cyclotron resonance mass spectrometry to form a complex with a 1:1:4 calmodulin/RS20/calcium stoichiometry. There was no evidence for formation of a calmodulin-RS20-Ca(2) species. The absence of calmodulin-RS20-Ca(2) would be consistent with models in which the two globular domains are coupled functionally. There was evidence that calmodulin, RS20-calmodulin without associated calcium, and calmodulin-RS20-Ca(4) existed together in solution, whereas calmodulin-calcium complexes were absent. It is proposed that calcium binding to form the calmodulin-RS20-Ca(4) complex occurs after an initial RS20-calmodulin binding event, and serves to secure the target within the calmodulin structure. The binding of more than one RS20 molecule to calmodulin was observed to induce unfolding of calmodulin.

Apocalmodulin binds to the myosin light chain kinase calmodulin target site.

The interaction of a 20-residue-long peptide derived from the calmodulin-binding domain of the smooth muscle myosin light chain kinase with calcium-free calmodulin (apocalmodulin) was studied using a combination of isothermal titration calorimetry and differential scanning calorimetry. We showed that: (i) a significant binding between apocalmodulin and the target peptide (RS20) exists in the absence of salt (Ka = 10(6) M-1), (ii) the peptide interacts with the C-terminal lobe of calmodulin and adopts a partly helical conformation, and (iii) the presence of salt weakens the affinity of the peptide for apocalmodulin, emphasizing the importance of electrostatic interactions in the complex. Based on these results and taking into account the work of Bayley et al. (Bayley, P. M., Findlay, W.A., and Martin, S. R. (1996) Protein Sci. 5, 1215-1228), we suggest a physiological role for apocalmodulin.

Variability analysis of HIV-1 gp120 V3 region: IV. Distribution functions for intra- and inter-subtype amino acid hamming distances.

Distribution functions for intra- and inter- HIV-1 V3-loop subtypes amino acid Hamming distances were calculated (850 V3-loop sequences from the Los Alamos HIV-1 Database (1996) were used). These functions have pronounced bell-like shape. Such shapes of the histograms for HIV-1 V3 intra- and inter-subtype distriutions are discussed to confirm the applicability of different hierarchical cluster procedures for HIV-1 V3 classification. Two-mode distribution for the subtype E could sertificate that this subtype includes two thinner taxons.