bp(GO:"GO:0000165")

Entity

Name

GO:0000165

Namespace

go

Namespace Version

20180828

Namespace URL

https://raw.githubusercontent.com/pharmacome/terminology/1b20f0637c395f8aa89c2e2e342d7b704062c242/external/go.belns

For example, NGF signal transduction activates the MAPK pathway, which participates in a wide array of biologic functions, including cell survival, differentiation and apoptosis [82–84]. MAPK is a serine/ threonine protein kinase which becomes activated upon phosphorylation and affects a wide variety of transcription factors [85]. PubMed:18986241

For example, NGF signal transduction activates the MAPK pathway, which participates in a wide array of biologic functions, including cell survival, differentiation and apoptosis [82–84]. MAPK is a serine/ threonine protein kinase which becomes activated upon phosphorylation and affects a wide variety of transcription factors [85]. PubMed:18986241

Recent evidence supports the notion that p75NTR has an intrinsic signaling capacity including: • Sphingolipid metabolism [98–100] • Activation of the JNK pathway [52,54,56,101–103] • Activation of the NF-kappaB pathway [104–109] • Activation of the Akt pathway [110] • Activation of the MAPK pathway [97,111] PubMed:18986241

For example, NGF signal transduction activates the MAPK pathway, which participates in a wide array of biologic functions, including cell survival, differentiation and apoptosis [82–84]. MAPK is a serine/ threonine protein kinase which becomes activated upon phosphorylation and affects a wide variety of transcription factors [85]. PubMed:18986241

Gambogic amide binds selectively to TrkA (but not TrkB or TrkC), phosphorylates TrkA tyrosine residues, and activates the Akt and MAPK TrkA-mediated NGF signaling pathways. Gambogic amide has been demonstrated to ameliorate excitotoxic damage and promote neurite outgrowth in PC12 cells [116], making this a potential lead compound for chemical modification and clinical trial assessment. PubMed:18986241

For example, NGF signal transduction activates the MAPK pathway, which participates in a wide array of biologic functions, including cell survival, differentiation and apoptosis [82–84]. MAPK is a serine/ threonine protein kinase which becomes activated upon phosphorylation and affects a wide variety of transcription factors [85]. PubMed:18986241

For example, NGF signal transduction activates the MAPK pathway, which participates in a wide array of biologic functions, including cell survival, differentiation and apoptosis [82–84]. MAPK is a serine/ threonine protein kinase which becomes activated upon phosphorylation and affects a wide variety of transcription factors [85]. PubMed:18986241

The classic MAPK cascade involves activation of the small GTPase Ras, and the kinases Raf and MEK [86,87]. Downstream consequences of MAPK activation include activation of the ribosomal S6 kinases (Rsk) and the MAPK-activated protein kinase 2 (MAPKAP2), which phosphorylates several transcription factors including Elk-1 and cAMP-regulated response element binding protein (CREB) [85]. The physiological significance of this elaborate NGF-induced network remains unclear, but the sustained activation of MAPK is linked to neurotrophin-mediated neurite outgrowth [88,89] PubMed:18986241

The classic MAPK cascade involves activation of the small GTPase Ras, and the kinases Raf and MEK [86,87]. Downstream consequences of MAPK activation include activation of the ribosomal S6 kinases (Rsk) and the MAPK-activated protein kinase 2 (MAPKAP2), which phosphorylates several transcription factors including Elk-1 and cAMP-regulated response element binding protein (CREB) [85]. The physiological significance of this elaborate NGF-induced network remains unclear, but the sustained activation of MAPK is linked to neurotrophin-mediated neurite outgrowth [88,89] PubMed:18986241

The classic MAPK cascade involves activation of the small GTPase Ras, and the kinases Raf and MEK [86,87]. Downstream consequences of MAPK activation include activation of the ribosomal S6 kinases (Rsk) and the MAPK-activated protein kinase 2 (MAPKAP2), which phosphorylates several transcription factors including Elk-1 and cAMP-regulated response element binding protein (CREB) [85]. The physiological significance of this elaborate NGF-induced network remains unclear, but the sustained activation of MAPK is linked to neurotrophin-mediated neurite outgrowth [88,89] PubMed:18986241

The classic MAPK cascade involves activation of the small GTPase Ras, and the kinases Raf and MEK [86,87]. Downstream consequences of MAPK activation include activation of the ribosomal S6 kinases (Rsk) and the MAPK-activated protein kinase 2 (MAPKAP2), which phosphorylates several transcription factors including Elk-1 and cAMP-regulated response element binding protein (CREB) [85]. The physiological significance of this elaborate NGF-induced network remains unclear, but the sustained activation of MAPK is linked to neurotrophin-mediated neurite outgrowth [88,89] PubMed:18986241

The classic MAPK cascade involves activation of the small GTPase Ras, and the kinases Raf and MEK [86,87]. Downstream consequences of MAPK activation include activation of the ribosomal S6 kinases (Rsk) and the MAPK-activated protein kinase 2 (MAPKAP2), which phosphorylates several transcription factors including Elk-1 and cAMP-regulated response element binding protein (CREB) [85]. The physiological significance of this elaborate NGF-induced network remains unclear, but the sustained activation of MAPK is linked to neurotrophin-mediated neurite outgrowth [88,89] PubMed:18986241