Common molecular mechanism of the hepatic lesion and the cardiac parasympathetic regulation in chronic hepatitis C infection: a critical role for the muscarinic receptor type 3
2016
Autori
Glišić, SanjaCavanaugh, David P.
Chittur, Krishnan K.
Senćanski, Milan V.
Perović, Vladimir R.
Bojić, Tijana
Članak u časopisu (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Background: The pathophysiological overlapping between Sjorgens Syndrome (SS) and HCV, presence of anti-muscarinic receptor type 3 (M3R) antibodies in SS, the role that M3R plays in the regulation of the heart rate, has led to the assumption that cardiovagal dysfunction in HCV patients is caused by anti-M3R antibodies elicited by HCV proteins or by their direct interaction with M3R. Results: To identify HCV protein which possibly is crossreactive with M3R or which binds to this receptor, we performed the Informational Spectrum Method (ISM) analysis of the HCV proteome. This analysis revealed that NS5A protein represents the most probable interactor of M3R or that this viral protein could elicit antibodies which modulate function of this receptor. Further detailed structure/function analysis of NS5A and M3R performed by the ISM method extended with other Digital Signal processing (DSP) approaches revealed domains of these proteins which participate in their crossreactivity or in their d...irect interaction, representing promising diagnostic and therapeutic targets. Conclusions: Application of the ISM with other compatible bioinformatics methods offers new perspectives for identifying diagnostic and therapeutic targets for complicated forms of HCV and other viral infections. We show how the electron-ion interaction potential (EIIP) amino-acid scale used in the ISM combined with a robust, high performance hydrophobicity scale can provide new insights for understanding protein structure/function and protein-protein interactions.
Ključne reči:
Informational Spectrum Method / Hepatitis C / Muscarinic receptor type 3 / Cross-reactivity / Autonomic nervous system / EIIP / HydrophobicityIzvor:
BMC Bioinformatics, 2016, 17, 139-Finansiranje / projekti:
- Integralna studija identifikacije regionalnih genetskih faktora rizika i faktora rizika životne sredine za masovne nezarazne bolesti humane populacije u Srbiji - INGEMA_S (RS-MESTD-Integrated and Interdisciplinary Research (IIR or III)-41028)
- Primena EIIP/ISM bioinformatičke platforme u otkrivanju novih terapeutskih targeta i potencijalnih terapeutskih molekula (RS-MESTD-Basic Research (BR or ON)-173001)
DOI: 10.1186/s12859-016-0988-7
ISSN: 1471-2105
PubMed: 27000565
WoS: 000372487900004
Scopus: 2-s2.0-84962449659
Kolekcije
Institucija/grupa
VinčaTY - JOUR AU - Glišić, Sanja AU - Cavanaugh, David P. AU - Chittur, Krishnan K. AU - Senćanski, Milan V. AU - Perović, Vladimir R. AU - Bojić, Tijana PY - 2016 UR - https://vinar.vin.bg.ac.rs/handle/123456789/977 AB - Background: The pathophysiological overlapping between Sjorgens Syndrome (SS) and HCV, presence of anti-muscarinic receptor type 3 (M3R) antibodies in SS, the role that M3R plays in the regulation of the heart rate, has led to the assumption that cardiovagal dysfunction in HCV patients is caused by anti-M3R antibodies elicited by HCV proteins or by their direct interaction with M3R. Results: To identify HCV protein which possibly is crossreactive with M3R or which binds to this receptor, we performed the Informational Spectrum Method (ISM) analysis of the HCV proteome. This analysis revealed that NS5A protein represents the most probable interactor of M3R or that this viral protein could elicit antibodies which modulate function of this receptor. Further detailed structure/function analysis of NS5A and M3R performed by the ISM method extended with other Digital Signal processing (DSP) approaches revealed domains of these proteins which participate in their crossreactivity or in their direct interaction, representing promising diagnostic and therapeutic targets. Conclusions: Application of the ISM with other compatible bioinformatics methods offers new perspectives for identifying diagnostic and therapeutic targets for complicated forms of HCV and other viral infections. We show how the electron-ion interaction potential (EIIP) amino-acid scale used in the ISM combined with a robust, high performance hydrophobicity scale can provide new insights for understanding protein structure/function and protein-protein interactions. T2 - BMC Bioinformatics T1 - Common molecular mechanism of the hepatic lesion and the cardiac parasympathetic regulation in chronic hepatitis C infection: a critical role for the muscarinic receptor type 3 VL - 17 SP - 139 DO - 10.1186/s12859-016-0988-7 ER -
@article{ author = "Glišić, Sanja and Cavanaugh, David P. and Chittur, Krishnan K. and Senćanski, Milan V. and Perović, Vladimir R. and Bojić, Tijana", year = "2016", abstract = "Background: The pathophysiological overlapping between Sjorgens Syndrome (SS) and HCV, presence of anti-muscarinic receptor type 3 (M3R) antibodies in SS, the role that M3R plays in the regulation of the heart rate, has led to the assumption that cardiovagal dysfunction in HCV patients is caused by anti-M3R antibodies elicited by HCV proteins or by their direct interaction with M3R. Results: To identify HCV protein which possibly is crossreactive with M3R or which binds to this receptor, we performed the Informational Spectrum Method (ISM) analysis of the HCV proteome. This analysis revealed that NS5A protein represents the most probable interactor of M3R or that this viral protein could elicit antibodies which modulate function of this receptor. Further detailed structure/function analysis of NS5A and M3R performed by the ISM method extended with other Digital Signal processing (DSP) approaches revealed domains of these proteins which participate in their crossreactivity or in their direct interaction, representing promising diagnostic and therapeutic targets. Conclusions: Application of the ISM with other compatible bioinformatics methods offers new perspectives for identifying diagnostic and therapeutic targets for complicated forms of HCV and other viral infections. We show how the electron-ion interaction potential (EIIP) amino-acid scale used in the ISM combined with a robust, high performance hydrophobicity scale can provide new insights for understanding protein structure/function and protein-protein interactions.", journal = "BMC Bioinformatics", title = "Common molecular mechanism of the hepatic lesion and the cardiac parasympathetic regulation in chronic hepatitis C infection: a critical role for the muscarinic receptor type 3", volume = "17", pages = "139", doi = "10.1186/s12859-016-0988-7" }
Glišić, S., Cavanaugh, D. P., Chittur, K. K., Senćanski, M. V., Perović, V. R.,& Bojić, T.. (2016). Common molecular mechanism of the hepatic lesion and the cardiac parasympathetic regulation in chronic hepatitis C infection: a critical role for the muscarinic receptor type 3. in BMC Bioinformatics, 17, 139. https://doi.org/10.1186/s12859-016-0988-7
Glišić S, Cavanaugh DP, Chittur KK, Senćanski MV, Perović VR, Bojić T. Common molecular mechanism of the hepatic lesion and the cardiac parasympathetic regulation in chronic hepatitis C infection: a critical role for the muscarinic receptor type 3. in BMC Bioinformatics. 2016;17:139. doi:10.1186/s12859-016-0988-7 .
Glišić, Sanja, Cavanaugh, David P., Chittur, Krishnan K., Senćanski, Milan V., Perović, Vladimir R., Bojić, Tijana, "Common molecular mechanism of the hepatic lesion and the cardiac parasympathetic regulation in chronic hepatitis C infection: a critical role for the muscarinic receptor type 3" in BMC Bioinformatics, 17 (2016):139, https://doi.org/10.1186/s12859-016-0988-7 . .