The Somatostatin-28(1−12)-NPAMAP Sequence:  An Essential Helical-Promoting Motif Governing Prosomatostatin Processing at Mono- and Dibasic Sites

Brakch, Noureddine; Lazar, Noureddine; Panchal, Maı̈; Allemandou, Flore; Boileau, Guy; Cohen, Paul A.; Rholam, Mohamed

doi:10.1021/bi011928m

Cited by 8 publications

(13 citation statements)

References 65 publications

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“…7a, deletion of Pro residues (motif XAMAX) or shift of Pro -5 (motif PAMPA) increased both the helicity values per residue and the size of the domain containing the dibasic site, i.e., Som(Asn -6 -Asn ?5 ). Since Pro -5 is highly conserved in the primary sequence of prosomatostatin from various species, this amino acid residue additionally plays a role in the correct folding of the prosomatostatin processing domain [89]. These conclusions were supported by the results obtained for the processing of prosomatostatin mutants D[AMA] and [P -6 P -5 ].…”

Section: Role Of Pro-(xaa) 3 -Pro Motif In the Conformation Of S-28(1mentioning

confidence: 59%

“…Analysis of the processing efficiencies, observed with either the non-mutated precursor and prosomatostatin mutants in transfected Neuro2A cells ( Table 2), indicated that substitution of Pro -5 by an a-helix promoting amino acid residue ([A -5 ] mutant) abolished cleavage at the dibasic site [63,82]. In contrast, replacement of Pro -5 by a b-turn ''former'' residue-like ([G -5 ] mutant) or of the sequence Pro -5 -Arg-Glu-Arg -2 by non-homologous peptide stretches ([S -5 -N -3 ] and [Y -5 -G -3 ] mutants), known to organize as b-turn structures in proteins, did not affect prosomatostatin processing [89].…”

Section: Resultsmentioning

confidence: 99%

“…6, the S-28(1-12) sequence includes two Pro residues known to play a special role in structures [86] and functions [87] of proteins. Moreover, these Pro Table 2 Effects of various mutations on human prosomatostatin processing in transfected Neuro2A cells [89] Mutants…”

Section: Role Of Pro-(xaa) 3 -Pro Motif In the Conformation Of S-28(1mentioning

confidence: 99%

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Processing of peptide and hormone precursors at the dibasic cleavage sites

Rholam

Fahy

2009

Cell. Mol. Life Sci.

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Many functionally important cellular peptides and proteins, including hormones, neuropeptides, and growth factors, are synthesized as inactive precursor polypeptides, which require post-translational proteolytic processing to become biologically active polypeptides. This is achieved by the action of a relatively small number of proteases that belong to a family of seven subtilisin-like proprotein convertases (PCs) including furin. In view of this, this review focuses on the importance of privileged secondary structures and of given amino acid residues around basic cleavage sites in substrate recognition by these endoproteases. In addition to their participation in normal cell functions, PCs are crucial for the initiation and progress of many important diseases. Hence, these proteases constitute potential drug targets in medicine. Accordingly, this review also discusses the approaches used to shed light on the cleavage preference and the substrate specificity of the PCs, a prerequisite to select which PCs are promising drug targets in each disease.

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Section: Role Of Pro-(xaa) 3 -Pro Motif In the Conformation Of S-28(1mentioning

confidence: 59%

Section: Resultsmentioning

confidence: 99%

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Processing of peptide and hormone precursors at the dibasic cleavage sites

Rholam

Fahy

2009

Cell. Mol. Life Sci.

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“…Recently the role of a short helix-promoting sequence at the N-terminus of the multibasic cleavage site in governing the proteolytic processing was also emphasized for pro-somatostatin. [33] Structural studies are in progress on other HIV-1 gp160 cleavage site analogues to further investigate the structural factors that play a role in gp160-proteolytic enzyme recognition.…”

Section: Discussionmentioning

confidence: 99%

Structural Investigation of the HIV‐1 Envelope Glycoprotein gp160 Cleavage Site, 2: Relevance of an N‐Terminal Helix

et al. 2003

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Proteolytic activation of the HIV-1 envelope glycoprotein gp160 is selectively performed by the proprotein convertase furin at the C-terminus of the sequence R508-E-K-R511 (site 1), in spite of the presence of another consensus sequence, Lys500-Ala-Lys-Arg503 (site 2). On the basis of the solution structural analysis of the synthetic peptide p498, spanning the gp160 sequence Pro498-Gly516, we previously suggested a possible role of an N-terminal helix in regulating the exposure and accessibility of the gp160 physiological cleavage site, enclosed in a loop. Here we report on the activity and conformation of the 23-residue peptide h-REKR, designed to exhibit a large N-terminal helix, followed by the gp160 native sequence, Arg508-Gly516. h-REKR is digested by furin with high efficiency, comparable to the full native p498. Circular dichroism analyses, in mixtures from pure water to 98 % trifluoroethanol, outline a significant content of helical structure in the peptide conformation. The molecular model obtained from NMR data collected in trifluoroethanol/water, by means of DYANA and AMBER simulations, indeed has helical structure on a large N-terminal segment. Such a long helix does not seem to affect the loop conformation of the C-terminal site 1-containing sequence, which exhibits the same proton chemical shifts already observed for the full native p498.

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“…Prepro-SS has a sequence of hydrophobic aa at the N-terminus which is cleaved at the gly-ala junction at position -78 (from the N-terminus to the Cterminus). Pro-SS undergoes both monobasic (Arg -15 ) and dibasic (Arg -2 Lys -1 ) cleavages to release the two biofunctional hormones SS-28 and SS-14 (Funckes et al, 1983;Brakch et al, 2002) (Figure 1). …”

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confidence: 99%

Somatostatin (SS), SS receptors and SS analog treatment in tumorigenesis

Steffani¹,

Passafaro²,

Ferone³

et al. 2012

Atlas of Genetics and Cytogenetics in Oncology and Haematology

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Somatostatin (SS) is an inhibitory tetradecapeptide hormone with exocrine, endocrine, paracrine, and autocrine activities, which plays an important regulatory role in several cell functions, including inhibition of endocrine secretion and cell proliferation. Most of the effects of SS and of its currently available analogs are mediated via five different G proteincoupled receptor (GPCRs), codenamed sst [1][2][3][4][5] . SS receptors (sst s ) are expressed in a tissue-and subtypeselective manner in both normal and neoplastic cells, and the majority of SS target tissues express multiple sst s . Recent data suggest that when sst s are coexpressed, they may interact forming homo-and hetero-dimers also with other GPCRs, thus altering their original pharmacological and functional profiles. The formation of dimers can be not only constitutive, but also ligandpromoted: hence, compounds with high affinity for the different receptor subtypes can be used to achieve effects elicited by specific dimers. A feature common to most GPCRs is the cyclic process of signaling, desensitization, internalization, resensitization, and recycling to the plasma membrane. These events prevent cells from undergoing excessive receptor stimulation or periods of prolonged inactivity. SS receptors differently internalize after agonist binding and, specifically, sst 2 , sst 3 and sst 5 are internalized to a greater extent than sst 1 or sst 4 . sst s are linked to several second messenger systems which are involved in their downstream intracellular response (i.e., adenylyl cyclase, calcium and potassium ion channels, Na + /H + antiporter, phospholipase C, phospholipase A2, mitogen activated protein kinase, NO/cGMP, and serine-, threonine, and phosphotyrosyl-protein phosphatase). Interestingly, SS and SS analogs can control tumor development and progression/metastatization by direct actions, mediated by the sst s , and indirect actions, independent of receptor involvement. The direct antiproliferative effects include inhibition of autocrine/paracrine growth-promoting hormone/growth factor synthesis, arrest of cell division (by blockade of growth factor-mediated mitogenic signals), suppression of cell invasion and induction of apoptosis (programmed cell death). Indirect antitumor effects of SS include suppression of synthesis or/and release of growth factors and growth-promoting hormones, such as insulin, prolactin, insulin like-growth factor 1, epidermal growth factor, transforming growth factor-, gastrin, cholecystokinin and growth hormone. A specific pattern of sst s activation thus seems to elicit relevant antitumoral actions and deserves further exploitation with the aim of validating novel therapeutic approaches to cancer.

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The Somatostatin-28(1−12)-NPAMAP Sequence: An Essential Helical-Promoting Motif Governing Prosomatostatin Processing at Mono- and Dibasic Sites

Cited by 8 publications

References 65 publications

Processing of peptide and hormone precursors at the dibasic cleavage sites

Processing of peptide and hormone precursors at the dibasic cleavage sites

Structural Investigation of the HIV‐1 Envelope Glycoprotein gp160 Cleavage Site, 2: Relevance of an N‐Terminal Helix

Somatostatin (SS), SS receptors and SS analog treatment in tumorigenesis

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