bp(GO:"cell cycle")
Furthermore, pharmacological dissection of nicotine’s influence on cell cycle progression, apoptosis, and differentiation (43) indicate that alpha7 nAChRs expressed in keratynocytes are important. Other receptors are clearly involved in this process, since atropine, a muscarinic and sometimes nAChR inhibitor (531, 532), reduces cell adhesion through decreasing desmoligein expression. PubMed:19126755
Ubiquitin-mediated proteolysis of a variety of cellular proteins plays an important role in many basic cellular processes. Among these are regulation of cell cycle and division, differentiation and development, involvement in the cellular response to stress and extracellular effectors, morphogenesis of neuronal networks, modulation of cell surface receptors, ion channels and the secretory pathway, DNA repair, transcriptional regulation, transcriptional silencing, long-term memory, circadian rhythms, regulation of the immune and inflammatory responses,and biogenesis of organelles PubMed:14556719
NFT containing neurons upregulated genes involved in cell survival and viability, inflammation, cell cycle progression and molecular transport and downregulated apoptosis, necrosis and cell death pathways (Figure 1a). NFkB, a pro-survival master transcriptional regulator of inflammation, was the highest predicted upstream regulator of the NFT-gene expression profile. In agreement with inflammatory activation, other predicted upstream regulators included IFNG, TNF, TLR4, IL1B and CXCL1 (Figure 1b) PubMed:30126037
Transcriptomic analyses of NFT-containing neurons microdissected from postmortem AD brain revealed an expression profile consistent with cellular senescence. This complex stress response induces aberrant cell cycle activity, adaptations to maintain survival, cellular remodeling, and metabolic dysfunction PubMed:30126037
PP2A is an important player in many cellular functions. It controls cell metabolism by regulating the activity of the enzymes involved in glycolysis, lipid metabolism and catecholamine synthesis [8]. It also regulates various biological processes such as the cell cycle (by mediating cdc2 kinase activation), DNA replication, transcription and translation, signal transduction, cell proliferation, cytoskeleton dynamics and cell mobility and apoptosis. It has also been shown to play a role in cell transformation and cancer [9-12]. PubMed:23454242
PP2A plays a critical role in cellular physiology including cell cycle regulation, cell proliferation and death, development, cytoskeleton dynamics, cell mobility, and regulation of multiple signal transduction pathways PubMed:19277525
For example, the PP2A holoenzyme involving the B′ family plays an essential role in cell-cycle progression, through direct interaction with the protein Shugoshin PubMed:19277525
It had also been demonstrated that methylation levels of PP2A changed during a cell cycle, suggesting a critical role of methylation in cell cycle regulation PubMed:19277525
Accordingly, Hsp90 affects many key cellular processes, including cell cycle progression, steroid signaling, calcium signaling, protein trafficking, protein secretion, the immune re- sponse, and the heat shock response (HSR) (45, 48, 82). PubMed:23746257
Transcriptomic analyses of NFT-containing neurons microdissected from postmortem AD brain revealed an expression profile consistent with cellular senescence. This complex stress response induces aberrant cell cycle activity, adaptations to maintain survival, cellular remodeling, and metabolic dysfunction PubMed:30126037
Accordingly, Hsp90 affects many key cellular processes, including cell cycle progression, steroid signaling, calcium signaling, protein trafficking, protein secretion, the immune re- sponse, and the heat shock response (HSR) (45, 48, 82). PubMed:23746257
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If you find BEL Commons useful in your work, please consider citing: Hoyt, C. T., Domingo-Fernández, D., & Hofmann-Apitius, M. (2018). BEL Commons: an environment for exploration and analysis of networks encoded in Biological Expression Language. Database, 2018(3), 1–11.