Zhai Peiyong, Galeotti Jonathan, Liu Jing, Holle Eric, Yu Xianzhong, Wagner Thomas, Sadoshima Junichi
Cardiovascular Research Institute, Department of Cell Biology and Molecular Medicine, University of Medicine & Dentistry of New Jersey, New Jersey Medical School, Newark 07103, USA.
Circ Res. 2006 Sep 1;99(5):528-36. doi: 10.1161/01.RES.0000240147.49390.61. Epub 2006 Aug 10.
We have shown previously that tyrosine 319 in a conserved YIPP motif in the C terminus of angiotensin II (Ang II) type 1 receptors (AT(1)Rs) is essential for transactivation of epidermal growth factor receptor (EGFR) in vitro. We hypothesized that the signaling mechanism mediated through the specific amino acid sequence in the G protein-coupled receptor plays an important role in mediating cardiac hypertrophy in vivo. Transgenic mice with cardiac-specific overexpression of wild-type AT(1)R (Tg-WT) and an AT(1)R with a mutation in the YIPP motif (Tg-Y319F) were studied. Tg-Y319F mice developed no significant cardiac hypertrophy, in contrast to the significant development of hypertrophy in Tg-WT mice. Expression of fetal-type genes, such as atrial natriuretic factor, was also significantly lower in Tg-Y319F than in Tg-WT mice. Infusion of Ang II caused an enhancement of hypertrophy in Tg-WT mice but failed to induce hypertrophy in Tg-Y319F mice. Left ventricular myocardium in Tg-Y319F mice developed significantly less apoptosis and fibrosis than that in Tg-WT mice. EGFR phosphorylation was significantly inhibited in Tg-Y319F mice, confirming that EGFR was not activated in Tg-Y319F mouse hearts. In contrast, activation/phosphorylation of protein kinase C, STAT3, extracellular signal-regulated kinase, and Akt and translocation of Galphaq/11 to the cytosolic fraction were maintained in Tg-Y319F hearts. Furthermore, a genetic cross between Tg-WT and transgenic mice with cardiac-specific overexpression of dominant negative EGFR mimicked the phenotype of Tg-Y319F mice. In conclusion, overexpression of AT(1)-Y319F in cardiac myocytes diminished EGFR transactivation and inhibited a pathological form of cardiac hypertrophy. The YIPP motif in the AT(1)R plays an important role in mediating cardiac hypertrophy in vivo.
我们之前已经表明,血管紧张素II(Ang II)1型受体(AT(1)Rs)C末端保守的YIPP基序中的酪氨酸319对于体外表皮生长因子受体(EGFR)的反式激活至关重要。我们推测,通过G蛋白偶联受体中的特定氨基酸序列介导的信号传导机制在体内介导心脏肥大中起重要作用。对心脏特异性过表达野生型AT(1)R(Tg-WT)和YIPP基序发生突变的AT(1)R(Tg-Y319F)的转基因小鼠进行了研究。与Tg-WT小鼠显著发生肥大相反,Tg-Y319F小鼠未出现明显的心脏肥大。心房钠尿肽等胎儿型基因的表达在Tg-Y319F小鼠中也显著低于Tg-WT小鼠。输注Ang II导致Tg-WT小鼠肥大增强,但未能在Tg-Y319F小鼠中诱导肥大。Tg-Y319F小鼠的左心室心肌发生的凋亡和纤维化明显少于Tg-WT小鼠。Tg-Y319F小鼠中EGFR磷酸化受到显著抑制,证实EGFR在Tg-Y319F小鼠心脏中未被激活。相反,蛋白激酶C、STAT3、细胞外信号调节激酶和Akt的激活/磷酸化以及Galphaq/11向胞质部分的转位在Tg-Y319F心脏中得以维持。此外,Tg-WT与心脏特异性过表达显性负性EGFR的转基因小鼠之间的遗传杂交模拟了Tg-Y319F小鼠的表型。总之,心肌细胞中AT(1)-Y319F的过表达减少了EGFR反式激活并抑制了病理性心脏肥大形式。AT(1)R中的YIPP基序在体内介导心脏肥大中起重要作用。
