Signal Protein-Derived Peptides as Functional Probes and Regulators of Intracellular Signaling

Шпаков, А. О.

doi:10.4061/2011/656051

Cited by 16 publications

(9 citation statements)

References 166 publications

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“…Their action being receptor and site specific, they can induce either inhibition or enhancement of signal transduction via the cognate receptor. This is in good agreement with the results obtained with synthetic peptides derived from the extracellular and intracellular regions of different GPCRs [61, 62]. Thus, peptides corresponding to the extracellular loops of MCRs are a promising tool in the study of etiology of DM and its cerebral complications and give a perspective approach to develop new models of DM and obesity based on antibody-induced deregulation of the brain AC signaling.…”

Section: Camp Signaling In the Brainsupporting

confidence: 88%

The Functional State of Hormone-Sensitive Adenylyl Cyclase Signaling System in Diabetes Mellitus

Шпаков

Derkach

2013

Journal of Signal Transduction

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Diabetes mellitus (DM) induces a large number of diseases of the nervous, cardiovascular, and some other systems of the organism. One of the main causes of the diseases is the changes in the functional activity of hormonal signaling systems which lead to the alterations and abnormalities of the cellular processes and contribute to triggering and developing many DM complications. The key role in the control of physiological and biochemical processes belongs to the adenylyl cyclase (AC) signaling system, sensitive to biogenic amines and polypeptide hormones. The review is devoted to the changes in the GPCR-G protein-AC system in the brain, heart, skeletal muscles, liver, and the adipose tissue in experimental and human DM of the types 1 and 2 and also to the role of the changes in AC signaling in the pathogenesis and etiology of DM and its complications. It is shown that the changes of the functional state of hormone-sensitive AC system are dependent to a large extent on the type and duration of DM and in experimental DM on the model of the disease. The degree of alterations and abnormalities of AC signaling pathways correlates very well with the severity of DM and its complications.

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Section: Camp Signaling In the Brainsupporting

confidence: 88%

The Functional State of Hormone-Sensitive Adenylyl Cyclase Signaling System in Diabetes Mellitus

Шпаков

Derkach

2013

Journal of Signal Transduction

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“…These include ICL 2 between TM3 and TM4, ICL 3 between TM 5 and TM 6, and loop 4 formed between TM 7 and the lipid modification on the proximal carboxyl terminus (Bockaert et al, 2004;Shpakov, 2011). Agonist binding causes steric changes in the arrangement of the TM domains that are allosterically transmitted to the associated G-protein heterotrimer (G αβγ ) that dissociate into Gα and Gβγ subunits.…”

Section: Gpcrs As Components Of Molecular Networkmentioning

confidence: 99%

Role of iso-receptors in receptor-receptor interactions with a focus on dopamine iso-receptor complexes

Agnati

Guidolin

Cervetto

et al. 2016

Reviews in the Neurosciences

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AbstractIntercellular and intracellular communication processes consist of signals and recognition/decoding apparatuses of these signals. In humans, the G protein-coupled receptor (GPCR) family represents the largest family of cell surface receptors. More than 30 years ago, it has been proposed that GPCR could form dimers or higher-order oligomers (receptor mosaics [RMs] at the plasma membrane level and receptor-receptor interactions [RRIs] have been proposed as a new integrative mechanism for chemical signals impinging on cell plasma membranes). The basic phenomena involved in RRIs are allostery and cooperativity of membrane receptors, and the present paper provides basic information concerning their relevance for the integrative functions of RMs. In this context, the possible role of iso-receptor RM is discussed (with a special focus on dopamine receptor subtypes and on some of the RMs they form with other dopamine iso-receptors), and it is proposed that two types of cooperativity, namely, homotropic and heterotropic cooperativity, could allow distinguishing two types of functionally different RMs. From a general point of view, the presence of iso-receptors and their topological organization within RMs allow the use of a reduced number of signals for the intercellular communication processes, since the target cells can recognize and decode the same signal in different ways. This theoretical aspect is further analyzed here by means of an analogy with artificial information systems. Thus, it is suggested that the ‘multiplexer’ and ‘demultiplexer’ concepts could, at least in part, model the role of RMs formed by iso-receptors in the information handling by the cell.

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“…G protein-regulated pathways are recognized as one of the most important in terms of hormonal cell signaling mechanisms (14), and the pharmacological modification of these pathways has been a central focus of research. In this context, the use of small peptides to induce molecular interference of protein-protein interactions has been of importance in the study of molecular events in signal transduction pathways (15). However, not much is known regarding a potential pharmaco-logical modulation of ion channels and ethanol modulation using small peptides (20).…”

Section: The Glycine Receptor (Glyr)mentioning

confidence: 99%

Inhibition of the Ethanol-induced Potentiation of α1 Glycine Receptor by a Small Peptide That Interferes with Gβγ Binding

Martín

Cerda

Jiménez

et al. 2012

Journal of Biological Chemistry

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Background: G␤␥ interaction with GlyR is an important determinant in ethanol potentiation of this channel. Results: A small peptide, RQH C7, can inhibit ethanol potentiation of GlyR currents. Conclusion: Results with RQH C7 indicate that ethanol mediated potentiation of GlyR is in part by G␤␥ activation. Significance: Molecular interaction between G␤␥ and GlyR could be used as a target for pharmacological modification of ethanol effects.

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Signal Protein-Derived Peptides as Functional Probes and Regulators of Intracellular Signaling

Cited by 16 publications

References 166 publications

The Functional State of Hormone-Sensitive Adenylyl Cyclase Signaling System in Diabetes Mellitus

The Functional State of Hormone-Sensitive Adenylyl Cyclase Signaling System in Diabetes Mellitus

Role of iso-receptors in receptor-receptor interactions with a focus on dopamine iso-receptor complexes

Inhibition of the Ethanol-induced Potentiation of α1 Glycine Receptor by a Small Peptide That Interferes with Gβγ Binding

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