AMPK信号通路
中文名称
通路描述
AMPK(AMP激活蛋白激酶)是一种高度保守的丝氨酸/苏氨酸激酶。AMPK系统作为细胞能量状态的传感器。它通过代谢压力引起的细胞AMP:ATP比值增加而激活,这些压力既干扰ATP的产生(例如葡萄糖或氧剥夺),又加速ATP的消耗(例如肌肉收缩)。包括肝脏激酶B1(LKB1)、钙/钙调蛋白激酶激酶β(CaMKKβ)和TGF-β激活激酶1(TAK-1)在内的几个上游激酶可以通过磷酸化其催化α亚基上的丝氨酸残基来激活AMPK。一旦激活,AMPK会同时抑制能量消耗的合成途径,如蛋白质、脂肪酸和糖原合成,并激活ATP产生的分解途径,如脂肪酸氧化和糖酵解。
英文描述
AMP-activated protein kinase (AMPK) is a serine threonine kinase that is highly conserved through evolution. AMPK system acts as a sensor of cellular energy status. It is activated by increases in the cellular AMP:ATP ratio caused by metabolic stresses that either interfere with ATP production (eg, deprivation for glucose or oxygen) or that accelerate ATP consumption (eg, muscle contraction). Several upstream kinases, including liver kinase B1 (LKB1), calcium/calmodulin kinase kinase-beta (CaMKK beta), and TGF-beta-activated kinase-1 (TAK-1), can activate AMPK by phosphorylating a threonine residue on its catalytic alpha-subunit. Once activated, AMPK leads to a concomitant inhibition of energy-consuming biosynthetic pathways, such as protein, fatty acid and glycogen synthesis, and activation of ATP-producing catabolic pathways, such as fatty acid oxidation and glycolysis.
所含基因
122 个基因
ACACA
ACACB
ADIPOQ
ADIPOR1
ADIPOR2
ADRA1A
AKT1
AKT1S1
AKT2
AKT3
CAB39
CAB39L
CAMKK2
CCNA1
CCNA2
CCND1
CD36
CFTR
CIDEA
CPT1A
CPT1B
CPT1C
CREB1
CREB3
CREB3L1
CREB3L2
CREB3L3
CREB3L4
CREB5
CRTC2
EEF2
EEF2K
EIF4EBP1
ELAVL1
FASN
FBP1
FBP2
FOXO1
FOXO3
G6PC1
G6PC2
G6PC3
GYS1
GYS2
HMGCR
HNF4A
IGF1
IGF1R
INS
INSR
IRS1
IRS2
IRS4
LEP
LEPR
LIPE
MAP3K7
MLYCD
MTOR
P3R3URF-PIK3R3
PCK1
PCK2
PDPK1
PFKFB1
PFKFB2
PFKFB3
PFKFB4
PFKL
PFKM
PFKP
PIK3CA
PIK3CB
PIK3CD
PIK3R1
PIK3R2
PIK3R3
PPARG
PPARGC1A
PPP2CA
PPP2CB
PPP2R1A
PPP2R1B
PPP2R2A
PPP2R2B
PPP2R2C
PPP2R2D
PPP2R3A
PPP2R3B
PPP2R3C
PPP2R5A
PPP2R5B
PPP2R5C
PPP2R5D
PPP2R5E
PRKAA1
PRKAA2
PRKAB1
PRKAB2
PRKAG1
PRKAG2
PRKAG3
RAB10
RAB11B
RAB14
RAB2A
RAB8A
RHEB
RPS6KB1
RPS6KB2
RPTOR
SCD
SCD5
SIRT1
SLC2A4
SREBF1
STK11
STRADA
STRADB
TBC1D1
TSC1
TSC2
ULK1