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Erschienen in:
A Coarse-Grained Representation for Discretizable Distance Geometry with Interval Data Kapitel lesen Erstes Kapitel lesen

2019 | OriginalPaper | Buchkapitel

Deciphering the Role of PKC in Calpain-CAST System Through Formal Modeling Approach

verfasst von : Javaria Ashraf, Jamil Ahmad, Zaheer Ul-Haq

Erschienen in: Bioinformatics and Biomedical Engineering

Verlag: Springer International Publishing

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Abstract

Calcium-activated calpain has critical role in a variety of calcium regulated processes. Calcium activates two other proteins, Calpastatin (CAST) and Protein Kinase C (PKC) to make a regulatory network which is pivotal in cell physiology. CAST binds with calpain to form complex for hampering its hyperactivation. PKC phosphorylates CAST while calpain proteolyzes active PKC and increases calcium influx. Based on biological knowledge, a qualitative (discrete) model is constructed that provides new insights into the dynamics of calpain-CAST and PKC relationship. The model predicts that PKC maintains calpain-CAST complex by interacting with both active calpain and CAST. It is also observed that in physiological condition, there is a homeostatic behavior between calcium, CAST and PKC. Some significant discrete cycles are also identified by analyzing betweenness centralities of the discrete states. There is one stable state in the model in which calpain and calcium are hyperactivated while CAST and PKC are inactivated. The model is validated through the stochastic Petri Net model that further reveals its quantitative dynamical behaviors. Physiology is perturbed by hyperactivation of calpain which results in the deregulation of homeostasis. Both models suggest that inhibition of calpain by CAST is a better therapeutic strategy which requires healthy assistance from PKC. In conclusion, homeostasis of calcium, CAST and PKC is pivotal for a healthy state.

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Vorheriges Kapitel De novo Transcriptome Assembly of Solea senegalensis v5.0 Using TransFlow
Nächstes Kapitel The Application of Machine Learning Algorithms to Diagnose CKD Stages and Identify Critical Metabolites Features
Literatur
1.
Ferreira, A.: Calpain dysregulation in Alzheimer disease. ISRN Biochem. 2012, 12 (2012)
2.
3.
Lokuta, M.A., Nuzzi, P.A., Huttenlocher, A.: Calpain regulates neutrophil chemotaxis. Proc. Natl. Acad. Sci. 100(7), 4006–4011 (2003)CrossRef
4.
Battaglia, F., Trinchese, F., Liu, S., Walter, S., Nixon, R.A., Arancio, O.: Calpain inhibitors, a treatment for Alzheimer disease. J. Mol. Neurosci. 20(3), 357–362 (2003)CrossRef
5.
Higuchi, M., et al.: Mechanistic involvement of the calpain-calpastatin system in Alzheimer neuropathology. FASEB J. 26(3), 1204–1217 (2012)MathSciNetCrossRef
6.
Letavernier, E., et al.: Targeting the calpain/calpastatin system as a new strategy to prevent cardiovascular remodeling in angiotensin ii-induced hypertension. Circ. Res. 102(6), 720–728 (2008)CrossRef
7.
Hanna, R.A., Campbell, R.L., Davies, P.L.: Calcium-bound structure of calpain and its mechanism of inhibition by calpastatin. Nature 456(7220), 409–412 (2008)CrossRef
8.
Averna, M., De Tullio, R., Passalacqua, M., Salamino, F., Pontremoli, S., Melloni, E.: Changes in intracellular calpastatin localization are mediated by reversible phosphorylation. Biochem. J. 354(1), 25–30 (2001)CrossRef
9.
Goll, D.E., Thompson, V.F., Li, H., Wei, W.E.I., Cong, J.: The calpain system. Physiol. Rev. 83(3), 731–801 (2003)CrossRef
10.
Berridge, M.J., Bootman, M.D., Roderick, H.L.: Calcium: calcium signalling: dynamics, homeostasis and remodelling. Nat. Rev. Mol. Cell Biol. 4(7), 517 (2003)CrossRef
11.
Naldi, A., Berenguier, D., Faure, A., Lopez, F., Thieffry, D., Chaouiya, C.: Logical modelling of regulatory networks with GINsim 2.3. Biosystems 97(2), 134–139 (2009)CrossRef
12.
Ahmad, J.: Modélisation hybride et analyse des dynamiques des réseaux de régulations biologiques en tenant compte des délais. Ph.D. thesis, Nantes (2009)
13.
Thomas, R., Thieffry, D., Kaufman, M.: Dynamical behaviour of biological regulatory networks-i. biological role of feedback loops and practical use of the concept of the loop-characteristic state. Bull. Math. Biol. 57(2), 247–276 (1995)CrossRef
14.
Comet, J.-P., Richard, A.: SMBioNet: a tool for modeling biological regulatory networks driven by temporal behavior. In: ECCB 2003, 27–30 September 2003, Paris, France (2003)
15.
16.
Ashraf, J., Ahmad, J., Ali, A., Ul-Haq, Z.: Analyzing the behavior of neuronal pathways in Alzheimer’s using petri net modeling approach. Front. Neuroinformatics 12, 26 (2018)CrossRef
17.
Khalis, Z., Comet, J.-P., Richard, A., Bernot, G.: The SMBioNet method for discovering models of gene regulatory networks. Genes Genomes Genomics 3(1), 15–22 (2009)
18.
Thibault, O., Gant, J.C., Landfield, P.W.: Expansion of the calcium hypothesis of brain aging and Alzheimer’s disease: minding the store. Aging Cell 6(3), 307–317 (2007)CrossRef
19.
Shannon, P., et al.: Cytoscape: a software environment for integrated models of biomolecular interaction networks. Genome Res. 13(11), 2498–2504 (2003)CrossRef
20.
Tareen, S.H.K., Ahmad, J., Roux, O.: Parametric linear hybrid automata for complex environmental systems modeling. Front. Environ. Sci. 3, 47 (2015)CrossRef
21.
22.
23.
Ye, T., et al.: Over-expression of calpastatin inhibits calpain activation and attenuates post-infarction myocardial remodeling. PLoS One 10(3), e0120178 (2015)CrossRef
24.
De Tullio, R., et al.: Differential regulation of the calpain-calpastatin complex by the l-domain of calpastatin. Biochimica et Biophysica Acta (BBA)-Mol. Cell Res. 1843(11), 2583–2591 (2014)
25.
Blomgren, K., et al.: Calpastatin is up-regulated in response to hypoxia and is a suicide substrate to calpain after neonatal cerebral hypoxia-ischemia. J. Biol. Chem. 274(20), 14046–14052 (1999)CrossRef
26.
Rao, M.V., et al.: Marked calpastatin (cast) depletion in Alzheimer’s disease accelerates cytoskeleton disruption and neurodegeneration: neuroprotection by cast overexpression. J. Neurosci. 28(47), 12241–12254 (2008)CrossRef
27.
Piper, H.M., Abdallah, Y., Schäfer, C.: The first minutes of reperfusion: a window of opportunity for cardioprotection. Cardiovasc. Res. 61(3), 365–371 (2004)CrossRef
28.
Cressman, C.M., Mohan, P.S., Nixon, R.A., Shea, T.B.: Proteolysis of protein kinase C: mM and \(\mu \)M calcium-requiring calpains have different abilities to generate, and degrade the free catalytic subunit, protein kinase M. FEBS Lett. 367(3), 223–227 (1995)
29.
Kang, M.-Y., Zhang, Y., Matkovich, S.J., Diwan, A., Chishti, A.H., Dorn, G.W.: Receptor-independent cardiac protein kinase C\(\alpha \) activation by calpain-mediated truncation of regulatory domains. Circ. Res. 107(7), 903–912 (2010)
30.
Wang, Y., et al.: Targeting calpain for heart failure therapy: implications from multiple murine models. JACC: Basic Transl. Sci. 3(4), 503–517 (2018)
31.
Noma, H., Kato, T., Fujita, H., Kitagawa, M., Yamano, T., Kitagawa, S.: Calpain inhibition induces activation of the distinct signalling pathways and cell migration in human monocytes. Immunology 141(2), 286–286 (2014)CrossRef
Metadaten
Titel
Deciphering the Role of PKC in Calpain-CAST System Through Formal Modeling Approach
verfasst von
Javaria Ashraf
Jamil Ahmad
Zaheer Ul-Haq
Copyright-Jahr
2019
Buch
Bioinformatics and Biomedical Engineering

Print ISBN: 978-3-030-17937-3

Electronic ISBN: 978-3-030-17938-0

Copyright-Jahr: 2019

DOI
https://doi.org/10.1007/978-3-030-17938-0_6

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