NF-KB, JAKSTAT- inflammatory mechanisms Flashcards
(35 cards)
NF-kB
is a dimer found in almost all animal cells, which regulates inflammation
what does activation of NF-kB cause
transcription of anti-oxidant proteins (SOD), NADPH oxidase, COX-2 and iNOS
what is NF-kB induced by
TNF-alpha, ROS, cocaine, viral and bacterial antigens
NF-kB pathway
1) signal attaches to the receptor2) activating IKK3) IKK phosphorylates IKBalpha (which is in complex with NF-kB)4) Once three phosphates added to IKBalpha, it detaches from NF-kB5) NF-kB translates to the nucleus6) activating genes which mediate inflammation
NF-kB activates genes genes involved in
cell growth, survival, migration and angiogenesis
JAK/STAT is involved in processes such as
immunity, cell division, cell death and tumour formation
JAK/STAT receptor lacks
intrinsic tyrosine oatvity- activates janus kinase (cytosolic kinase receptor
target genes for JAK/STAT
-MYC (porto-oncogenes)-P21-cytokines-iNOSSOC (suppressor of cytokine signaling)
JAK/STAT can work to
suppress cytokine signalling via SOC
JAK/STAT pathway
1) ligand binds to receptor (EPO)2) receptor dimerises (confomational change)3) JAKs move closer together and phosphorylate the receptor4) phosphorylated receptor recruits the TF STAT5) Receptor phosphorylates STAT6) phosphorylated STAT dislocates from the recwproe and dimerises via phosphotyrosine7) STAT dimer is a TF8) translocates to the nucleus and activates transcription
HIF is a
TF
in hypoxic conditions
HIF induces transcription causing angiongensis- to supply tissue with more oxygen
HIF plays a central role in
regulate of human metabolism
HIF causes an increase in
anaerobic enzymes
Normoxia
normal oxygen -HIF degraded by hydroxylation
Hypoxia
low oxygen- HIF not degraded-angiogensis
Normoxia and HIF pathway
1) no shortage of O2 for proxylhydroxylate2) HIF is hydroxylated3) this attract E3 Ubiquitin ligase4) HIF moves to proteasome and is degraded- therefore cannot cause transcription in the nucleus
Hypoxia and HIF pathway
1) shortage of oxygen for proxy-hydroxylate2) therefore HIF isn’t hydroxylated3) E3-UL is not attracted to HIF- no ubiquitination 4) HIF translocates to the nucleus5) HIFalpha and HIFbeta forms6) proteins transcribed which help regulate hypoxia
MAPK cascade stands for
mitogen activated protein kinases
MAPK can be
initiated by MANY PATHWAYS
what receptor does MAPK use
Tyrosine kinase
overall affect of MAPK cascade
cell survival and proliferation
MAPK cascade pathway
1) mitogen binds to RTK2) receptor dimerzes3) TK domain autophosphorylates4) when phosphorylated the receptor attracts proteins with a SH2 domain (Grb2)5) Grb2 is phosphorylated6) sos which is attached to Grb2 is activated and phosphorylates RAS7) RAS binds kinase RAF and activates via phosphorylation8) MEK and ERK also phosphorylated by posh9) ERk-P translates to the nucleus and acts as a TF10) genes involving cell proliferation and survival
overall the MAPK cascade causes
cell proliferation and survival
