alpha1-adrenergic receptors activate AMP-activated protein kinase in rat hearts / 生理学报

To test the hypothesis that AMP-activated protein kinase (AMPK) is possibly the downstream signaling molecule of certain subtypes of adrenergic receptor (AR) in the heart, we evaluated AMPK activation mediated by ARs in H9C2 cells, a rat cardiac source cell line, and rat hearts. The AMPK-alpha subunit and the phosphorylation level of Thr(172)-AMPK-alpha subunit were subjected to Western blot analysis. Osmotic minipumps filled with norepinephrine (NE), phenylephrine (PE) or vehicle [0.01% (W/V) vitamin C solution] were implanted into male Sprague-Dawley rats subcutaneously. The pumps delivered NE or PE continuously at the rate of 0.2 mg/kg per hour. After 7-day infusion, the activity of AMPK was examined following immunoprecipitation with anti-AMPK-alpha antibody. At the cellular level, we found that NE elevated AMPK phosphorylation level in a dose- and time-dependent manner, with the maximal effect at 10 micromol/L NE after 10-minute treatment. This effect was insensitive to propranolol, a specific beta-AR antagonist, but abolished by prazosin, an alpha(1)-AR antagonist, suggesting that alpha(1)-AR but not beta-AR mediated the phosphorylation of AMPK. Moreover, the results from rat models of 7-day-infusion of AR agonists demonstrated that the activity of AMPK was significantly higher in NE (7.4-fold) and PE (6.0-fold) infusion groups than that in the vehicle group (P<0.05, n=6). On the other hand, no obvious cardiac hypertrophy and tissue fibrosis changes were observed in PE-infused rats. Taken together, our results demonstrate that alpha(1)-AR stimulation enhances the activity of AMPK, indicating an important role of alpha(1)-AR stimulation in the regulation of AMPK in the heart. Understanding the activation of AMPK mediated by alpha(1)-AR might have clinical implications in the therapy of heart failure.

Redistribution of three alpha1-adrenergic receptor subtypes in the stably transfected HEK 293A cells upon agonist stimulation / 生理学报

To investigate the subcellular distribution of three alpha(1)-adrenergic receptor subtypes and their internalization and trafficking upon agonist stimulation in human embryonic kidney (HEK) 293A cell line, saturation radioligand binding assay, laser confocal imaging, and Western blot were applied to examine the distribution and changes in localization of three alpha(1)-AR subtypes in transfected HEK 293A cells prior to and after treatment with phenylephrine. The results are as follows: (1) The transfection efficiency was over 90%and was equal among three alpha(1)-AR subtypes. alpha(1B ) -AR expression in cell membrane was the highest, and alpha(1D ) -AR was the lowest, as determined by (125)I-BE2254 binding assay, however, K(d)s were not significantly different among the three receptor subtypes. (2) Without agonist stimulation, alpha(1A ) -AR was detected not only on the cell surface but also in the cytosol, alpha(1B ) -AR was predominantly located on the cell surface, whereas alpha(1D ) -AR was mostly detected in the cytosol. (3) After 1 h of stimulation with phenylephrine, as observed using confocal microscope, less alpha(1A)- and alpha(1B ) -AR were detected on the cell surface but more in the cytosol. The change was more remarkable in alpha(1B)-AR than that in alpha(1A)-AR, whereas no change of distribution was detected in alpha(1D)-AR in response to phenylephrine. However, when examined by Western blot, no change in distribution was detected in alpha(1A)- and alpha(1D)-AR, only alpha(1B)-AR showed the same change as that shown in confocal imaging. It is suggested that the characteristics of localization and changes of distribution are different among three alpha(1)-AR subtypes in HEK293A cells upon phenylephrine stimulation.