Recombinant Mouse 5'-AMP-activated protein kinase catalytic subunit alpha-1 (Prkaa1)

1. AMPK may be a critical regulator of fibroblast activation through regulation of cytoskeleton dynamics and myocardin-related transcription factor-A nuclear translocation, promoting renal fibrosis. PMID: 28739141
2. these findings identify a previously uncharacterized role of folate/DHFR/AMPKalpha axis in regulating oligodendrocyte survival and myelination. PMID: 28496133
3. CNR1 modulates AMPKalpha to influence insulin resistance and endoplasmic reticulum stress induced by palmitate. PMID: 29909009
4. Inhibiting the LTB4/BLT1 signaling pathway via AMPK activation is a potential treatment strategy for septic cardiac dysfunction because it efficiently attenuates cardiac apoptosis, which may occur via the inhibition of inflammation and mitochondrial dysfunction. PMID: 28290498
5. Thus, these findings suggest that AMPKalpha1 and AMPKalpha2 activity in chondrocytes is important in maintaining joint homeostasis and osteoarthritis development. PMID: 28225087
6. At molecular analysis, there was a time-dependent nuclear translocation of the active phosphorylated catalytic subunits AMPKalpha1/alpha2 and PGC-1alpha in young, but not in mature, mice after sepsis. PMID: 28974562
7. Low AMPK expression is associated with Acute respiratory distress syndrome. PMID: 30171880
8. AMPK stabilizes FOXO3 and suggest a role in the first initiation step of mitochondrial segregation in muscle cells. PMID: 29580989
9. these results demonstrate that AMPK downregulation is not a triggering factor in fatty liver development but in contrast, establish the therapeutic impact of pharmacological AMPK re-activation in the treatment of fatty liver disease. PMID: 29343420
10. Prkaa1 deletion activates skeletal muscle mTOR signalling, which has a central role in lipid metabolism and mitochondrial oxidation. Collectively, our study provides new insights into the role of Prkaa1 in skeletal muscle PMID: 29288408
11. our findings suggest that the role of Cx43 in response to H2O2 stress is dependent on the activation of AMPK signaling pathways and regulates ROS production and cell necrosis. PMID: 29279848
12. activation of AMPK at early stage of adipogenesis is involved in the anti-adipogenesis effect of Red Pepper Seed extract. PMID: 29316805
13. Study indicate that the alpha 2 and alpha 1 subunits of AMPK have several functional differences, with alpha 2 conferring stronger osteogenic potential and a weaker ability to induce osteoblasts-associated osteoclastogenesis in MC3T3-E1 cells as well as conferring a lower adipogenic potential to 3T3-L1 cells. PMID: 27600021
14. Over-expression of AMP-activated protein kinase (AMPK) promoted the apoptosis of mesangial cells from the systemic lupus erythematosus (SLE) mice. PMID: 29268850
15. AMPK-PGC-1a control of mitochondrial reactive oxygen species regulates Warburg metabolism. PMID: 28978464
16. AMPKalpha1 has a critical role in maintaining the anticontractile actions of perivascular adipose tissue; an effect independent of the endothelium but likely mediated through altered adiponectin secretion or sensitivity. PMID: 27668984
17. Ampk-/- mice displayed retardation of postnatal bone development, although bone deformity was not observed at birth. PMID: 29126229
18. Cardiac SUR2A levels were significantly increased while Kir6.2 levels were not affected. Hypoxia did not induce phosphorylation of extracellular signal-regulated kinases (ERK1/2) or protein kinase B (Akt), but triggered phosphorylation of AMP activated protein kinase (AMPK). AICAR, an activator of AMPK, increased the level of SUR2A in H9c2 cells. We conclude that oxygen increases SUR2A level by activating AMPK. PMID: 28121062
19. This study provides new insights into the control of eEF2K by AMPK. PMID: 28502587
20. These data indicate that a reduction in AMPK disrupts cellular metabolism in both progenitors and differentiated placental trophoblasts. PMID: 28335680
21. Targeted activation of AMPK by GSK621 ameliorates H2O2-induced osteoblast cell injuries. PMID: 28060740
22. Sestrin 1 targets at the AMPK/mTORC1/autophagy pathway to inhibit cardiac hypertrophy by interaction with AMPK which is responsible for autophagy regulation. Taken together, our data indicate that Sestrin 1 regulates AMPK/mTORC1/autophagy axis to attenuate cardiac hypertrophy. PMID: 28181410
23. AMPK enhances intestinal barrier function and epithelial differentiation via promoting CDX2 expression, which is partially mediated by altered histone modifications in the Cdx2 promoter. PMID: 28234358
24. our results elucidate a previously unrecognized role of AMPKalpha1 deletion in loss of contact inhibition of cellular proliferation and angiogenesis PMID: 27449088
25. AMPK and Sirt2 control compensatory glucose uptake in metabolically arrested mitochondria. PMID: 27909079
26. results indicate that liver AMPKalpha1alpha2 is required for maintaining glucose homeostasis during an acute bout of exercise. PMID: 29038293
27. AMP-activated protein kinase (AMPK) regulates autophagy by phosphorylating BECN1 at Thr388 PMID: 27304906
28. activation of AMPK might be a stress response of host cells to restrict virus production through promotion of autophagic degradation PMID: 27305174
29. AMPK regulates T cell survival and function. Demonstrate AMPK-dependent and independent rolesof AICAR/Compound C in regulating T cell responses. PMID: 27177226
30. AMPK was sufficient to stimulate osteogenesis of MC3T3-E1 cells and inhibit adipogenesis of 3T3-L1 cells through the AMPK-Gfi1-OPN axis. PMID: 27283242
31. AMPK activation reduces the formation of atheromata-inducing macrophages in ApoE(-/-)-deficient mice by inhibiting expression of Ccr2, thereby preventing the Ccr2-mediated migration of Ly6C(hi) monocytes from the bone marrow. PMID: 28235712
32. AMPK activation inhibited IL-1beta-stimulated CXCL10 secretion, associated with reduced interleukin-1 receptor associated kinase-4 (IRAK4) phosphorylation. PMID: 27840174
33. Findings indicate that the energy-sensing LKB1-AMPK pathway regulates IGF1 secretion in mouse primary hepatocytes, which in turn regulates activation of the IGF1R-PKB pathway. PMID: 28500773
34. These data suggest that nutrient availability dictates the mode of division and that LKB1-AMPK mediates this nutrient-driven effect on intestinal epithelial stem cell proliferation. PMID: 28766983
35. Myeloid-Restricted AMPKalpha1 Promotes Host Immunity and Protects against IL-12/23p40-Dependent Lung Injury during Hookworm Infection PMID: 27183598
36. Data suggest that Il4 (usually released from helper T-cells) induces Cox1 in macrophages at post-transcriptional level; activation of Ampk (catalytic subunit Prkaa1) by metformin blocks Il4-dependent induction of Cox1 and blocks macrophage polarization/activation. (Il4 = interleukin-4; Cox1 = cyclooxygenase 1; Ampk = AMP-activated protein kinase) PMID: 28684424
37. The metformin-rescued P23H rhodopsin was still intrinsically unstable and led to increased structural instability of the rod outer segments. These data suggest that improving the traffic of misfolding rhodopsin mutants is unlikely to be a practical therapy, but also highlights the potential of altering translation through AMPK to improve protein function in other protein misfolding diseases PMID: 28065882
38. Mechanistically, miR-499 directly targets Fnip1, an AMP-activated protein kinase (AMPK)-interacting protein that negatively regulates AMPK, a known activator of PGC-1alpha. This miR-499/Fnip1/AMPK circuit can serve as a mechanism to couple muscle fiber type and mitochondrial function. PMID: 27506764
39. dopamine is coupled to AMPK activation, which provides a substantial anti-inflammatory and bioenergetic advantage and reduces the severity of endotoxin-induced acute lung injury. PMID: 27733575
40. AMPKalpha1 deficiency suppresses brown adipogenesis in favor of fibrogenesis during brown adipose tissue development. PMID: 28668388
41. AMPK-dependent metabolic repair mechanisms are important for mitigating lung injury. PMID: 28085510
42. these data demonstrated that LKB1/AMPK signaling pathway activation improved the survival of diabetic mice complicated with endotoxemia. Thus, LKB1/AMPK signaling pathway may serve as a potentially useful therapeutic target for severe infection in diabetic patients. PMID: 28628912
43. We confirmed that procyanidins suppressed acute hyperglycemia with an oral glucose tolerance test in a dose-dependent manner.procyanidins, especially cinnamtannin A2, significantly ameliorate postprandial hyperglycemia at least in part by promoting GLUT4 translocation to the plasma membrane by activating both insulin- and AMPK-signaling pathways. PMID: 27598258
44. These findings demonstrate that the AMPK-TBC1D1 signaling nexus interacts with the PKB-mTOR pathway via IGF1 secretion, which consequently controls expression of lipogenic genes in the adipose tissue PMID: 27307439
45. AMPKa1 deficiency impairs autophagy-mediated monocyte differentiation and decreases monocyte/macrophage survival PMID: 28330873
46. The authors identified lactate dehydrogenase (LDH) as a new functional target of AMPKalpha1. PMID: 28515121
47. AMPKalpha1 knockout (KO) mice exhibit normal renal sodium handling and a moderate antidiuretic state. This is accompanied by higher urinary aldosterone excretion rates and reduced blood pressure. Plasma volume, however, was found to be increased compared with wild-type mice. PMID: 28179232
48. AMPK in adipocytes is vital for maintaining mitochondrial integrity. PMID: 27411013
49. Study demonstrated that adenosine monophosphate-activated protein kinase alpha 1 (AMPKalpha1) is imperative for maintaining normal nociception, and mice deficient for AMPKalpha1 exhibit mechanical allodynia. PMID: 27058143
50. The data suggest that AMPK is not required for the regulation of the intermediate filament interaction with CPT-I during exercise. PMID: 27941154

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KEGG: mmu:105787

STRING: 10090.ENSMUSP00000063166

UniGene: Mm.207004