Chiara Rubini scite author profile

Chiara Rubini

4Publications

53Citation Statements Received

103Citation Statements Given

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117

Affiliations

University of Padua, Institute on Aging, National Institute on Aging

Publications

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Synthesis and Evaluation of Neuroprotective α,β-Unsaturated Aldehyde Scavenger Histidyl-Containing Analogues of Carnosine

et al. 2005

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The synthesis, scavenging activity, and cytoprotective profiles of histidyl-containing carnosine analogues bearing hydrazide or 1,2-diol moieties is reported. Some compounds have demonstrated higher aldehyde-sequestering efficiency than carnosine and were also efficient in protecting SH-SY5Y neuroblastoma cells and rat hippocampal neurons from 4-hydroxy-trans-2,3-nonenal (HNE)-mediated death. The cytoprotective efficacy of these compounds suggests their potential use as therapeutic agents for disorders that involve excessive membrane lipids peroxidation and HNE-mediated neuronal toxicity.

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Mechanistic studies of amide bond scission during acidolytic deprotection of Pip containing peptide

Rubini¹,

Osler²,

Calderan³

et al. 2008

Journal of Peptide Science

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Unusual TFA catalyzed cleavage reaction is reported for peptide containing pipecolic acid residues. Although the use of TFA under standard cleavage conditions is sufficiently mild to prevent degradation of the desired products, the amide bond between consecutive pipecolic acid residues is unexpectedly hydrolyzed by standard TFA treatment. The hydrolysis is proposed to proceed via an oxazolinium ion intermediate. This mechanism is supported by H/D exchange as observed by ESI-MS and NMR experiments.

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4‐Fluoroproline derivative peptides: effect on PPII conformation and SH3 affinity

Ruzza¹,

Siligardi

Donella‐Deana

et al. 2006

Journal of Peptide Science

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Eukaryotic signal transduction involves the assembly of transient protein-protein complexes mediated by modular interaction domains. Specific Pro-rich sequences with the consensus core motif PxxP adopt the PPII helix conformation upon binding to SH3 domains. For short Pro-rich peptides, little or no ordered secondary structure is usually observed before binding interactions. The association of a Pro-rich peptide with the SH3 domain involves unfavorable binding entropy due to the loss of rotational freedom on forming the PPII helix. With the aim of stabilizing the PPII helix conformation in the Pro-rich HPK1 decapeptide PPPLPPKPKF (P2), a series of P2 analogues was prepared, in which specific Pro positions were alternatively occupied by 4(S)- or 4(R)-4-fluoro-L-proline. The interactions of these peptides with the SH3 domain of the HPK1-binding partner HS1 were quantitatively analyzed by the NILIA-CD approach. A CD thermal analysis of the P2 analogues was performed to assess their propensity to adopt the PPII helix conformation. Contrary to our expectations, the K(d) values of the analogues were lower than that of the parent peptide P2. These results clearly show that the induction of a stable PPII helix conformation in short Pro-rich peptides is not sufficient to increase their affinity toward the SH3 domain and that the effect of 4-fluoroproline strongly depends on the position of this residue in the sequence and the chirality of the substituent in the pyrrolidine ring.

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Recognition of lysine‐rich peptide ligands by murine cortactin SH3 domain: CD, ITC, and NMR studies

Rubini¹,

Ruzza²,

Spaller

et al. 2009

Biopolymers

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Cortactin is a ubiquitous actin-binding protein that regulates various aspects of cell dynamics and is implicated in the pathogenesis of human neoplasia. The sequence of cortactin contains a number of signaling motifs and an SH3 domain at the C-terminus, which mediates the interaction of the protein with several partners, including Shank2. A recombinant protein, comprising the murine cortactin SH3 domain fused to GST (GST-SH3(m-cort)), was prepared and used to assess the domain-binding affinity of potential peptide-ligands reproducing the proline-rich regions of human HPK1 and Shank2 proteins. The key residues involved in the SH3(m-cort) domain recognition were identified by three different approaches: non-immobilized ligand interaction assay by circular dichroism, isothermal titration calorimetry, and nuclear magnetic resonance. Our results show that the classical PxxPxK class II binding motif is not sufficient to mediate the interaction with GST-SH3(m-cort), an event that depends on the presence of additional basic residues located at either the N- or the C-terminus of the PxxPxK motif. Especially effective in promoting the peptide binding is a Lys residue at the -5 position, a determinant present in both P2 (HPK1 394-403) and S1 (Shank2 1168-1189) peptides. GST-SH3(m-cort) exhibits the highest affinity toward peptide S1, which contains additional Lys residues at the -3, -5, and -7 positions, indicating that the optimal consensus motif may be KPPxPxKxKxK. These results are supported by the in silico models of SH3(m-cort) complexed with P2 or S1, which highlight the domain residues that interact with the recognition determinants of the peptide-ligand and cooperate in binding stabilization.

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Chiara Rubini

Synthesis and Evaluation of Neuroprotective α,β-Unsaturated Aldehyde Scavenger Histidyl-Containing Analogues of Carnosine

Mechanistic studies of amide bond scission during acidolytic deprotection of Pip containing peptide

4‐Fluoroproline derivative peptides: effect on PPII conformation and SH3 affinity

Recognition of lysine‐rich peptide ligands by murine cortactin SH3 domain: CD, ITC, and NMR studies

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