Sinval E. G. Souza scite author profile

Sinval E. G. Souza

5Publications

50Citation Statements Received

64Citation Statements Given

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172

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Universidade Federal de São Paulo

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Bradykinin Release Avoids High Molecular Weight Kininogen Endocytosis

et al. 2015

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Human H-kininogen (120 kDa) plays a role in many pathophysiological processes and interacts with the cell surface through protein receptors and proteoglycans, which mediate H-kininogen endocytosis. In the present work we demonstrate that H-kininogen containing bradykinin domain is internalized and different endogenous kininogenases are present in CHO-K1 cells. We used CHO-K1 (wild type) and CHO-745 (mutant deficient in proteoglycans biosynthesis) cell lines. H-kininogen endocytosis was studied using confocal microscopy, and its hydrolysis by cell lysate fraction was determined by immunoblotting. Bradykinin release was also measured by radioimmunoassay. H-kininogen interaction with the cell surface of CHO-745 cells resulted in bradykinin release by serine proteases. In CHO-K1 cells, which produce heparan and chondroitin sulfate proteoglycans, internalization of H-kininogen through its bradykinin domain can occur on lipid raft domains/caveolae. Nevertheless bradykinin-free H-kininogen was not internalized by CHO-K1 cells. The H-kininogen present in acidic endosomal vesicles in CHO-K1 was approximately 10-fold higher than the levels in CHO-745. CHO-K1 lysate fractions were assayed at pH 5.5 and intact H-kininogen was totally hydrolyzed into a 62 kDa fragment. By contrast, at an assay pH 7.4, the remained fragments were 115 kDa, 83 kDa, 62 kDa and 48 kDa in size. The antipain-Sepharose chromatography separated endogenous kininogenases from CHO-K1 lysate fraction. No difference was detected in the assays at pH 5.5 or 7.4, but the proteins in the fraction bound to the resin released bradykinin from H-kininogen. However, the proteins in the unbound fraction cleaved intact H-kininogen at other sites but did not release bradykinin. H-kininogen can interact with extravascular cells, and is internalized dependent on its bradykinin domain and cell surface proteoglycans. After internalization, H-kininogen is proteolytically processed by intracellular kininogenases. The present data also demonstrates that serine or cysteine proteases in lipid raft domains/caveolae on the CHO cell can hydrolyze H-kininogen, thus releasing kinins.

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Solid-phase peptide synthesis in highly loaded conditions

Nakaie

Oliveira²,

Vicente

et al. 2011

Bioorganic Chemistry

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Fragments of the second transmembrane helix of three G-protein-coupled receptors: comparative synthetic, structural and conformational studies

et al. 2018

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Tachyphylactic properties of angiotensin II analogs with bulky and hydrophobic substituents at the N‐terminus

Motta

Poletti

Souza

et al. 2003

The Journal of Peptide Research

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Tachyphylaxis, defined as the acute loss of response of some smooth muscles upon repeated stimulations with angiotensin II (Ang II), has been shown to be dependent mainly on the N-terminal region of the ligand. To further study the structural requirements for the induction of tachyphylaxis we have synthesized Ang II analogs containing the bulky and very lipophilic substituents 9-fluorenylmethyloxycarbonyl (Fmoc) and 9-fluorenylmethyl ester (OFm) at the alpha-amino (Nalpha-Fmoc-Ang II) or the beta-carboxyl ([Asp(OFm)1]-Ang II) groups of the Asp1 residue, respectively. In binding assays with Chinese hamster ovary cells transfected with the AT1 Ang II receptor, Nalpha-Fmoc-Ang II bound with high affinity, whereas [Asp(OFm)1]-Ang II showed lower affinity. In biological assays, these two analogs were full agonists and showed 30 and 3%, respectively, of the Ang II potency in contracting the guinea-pig ileum smooth muscle. The two analogs induced tachyphylaxis, in spite of the lack of a free amino group in Nalpha-Fmoc-Ang II. Thus, analogs with Fmoc- or OFm-type groups coupled to the Asp1 residue, whether at the amino or carboxyl functions, induce tachyphylaxis through an unreported mechanism. Based in these findings and those available from the literature, an alternate molecular interaction mode between Ang II N-terminal portion and the AT1 receptor is proposed to explain the tachyphylactic phenomenon.

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Factors regulating tachyphylaxis triggered by N-terminal-modified angiotensin II analogs

Barros

Ito²,

Makino³

et al. 2009

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Binding of angiotensin II (DRVYIHPF, AngII) to its AT(1) receptor can trigger a process known as tachyphylaxis (loss of receptor response owing to repeated agonist stimulation). We propose a two-state binding model for tachyphylaxis where the N-terminal Asp(1) and Arg(2) residues of the peptide are supposed to initially bind to the N-terminal segment (Arg(23)) and to the EC-3 loop (Asp(281)) of an AT(1) molecule, respectively (state 1). Sequentially, a disruption of the salt bond between the AngII Asp(1) beta-carboxyl function and the receptor Arg(23) can occur with release of the peptide N-terminal segment, favoring the binding of the Arg(2) residue to the EC-3 loop (Asp(178,281), state 2). In the present study, we expanded this investigation by assaying pharmacological properties of different AngII analogs in guinea-pig ileum bearing modifications at positions 1 and 2. Most of these peptides were weak agonists but many of them had the ability to induce tachyphylaxis. These findings support the two-state model for tachyphylaxis, but alternative mechanisms were revealed where state 1 was no longer needed, depending on the chemical structure of AngII residue 1. Otherwise, any modification of the wild type AngII Arg(2) residue was deleterious for the tachyphylaxis mechanism.

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Sinval E. G. Souza

Bradykinin Release Avoids High Molecular Weight Kininogen Endocytosis

Solid-phase peptide synthesis in highly loaded conditions

Fragments of the second transmembrane helix of three G-protein-coupled receptors: comparative synthetic, structural and conformational studies

Tachyphylactic properties of angiotensin II analogs with bulky and hydrophobic substituents at the N‐terminus

Factors regulating tachyphylaxis triggered by N-terminal-modified angiotensin II analogs

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