在色素性视网膜炎的临床前模型中,沉默结节蛋白可增强光感受器的存活和功能(美国眼科学会论文)。

Stephen H Tsang, Lawrence Chan, Yi-Ting Tsai, Wen-Hsuan Wu, Chun-Wei Hsu, Jin Yang, Joaquin Tosi, Katherine J Wert, Richard J Davis, Vinit B Mahajan
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引用次数: 0

摘要

目的:在色素性视网膜炎(RP)的临床前模型中,评估沉默mTOR信号通路抑制剂tuberin的功能后果,以验证蛋白激酶B (PKB)调节的tuberin/mTOR自我生存通路诱导不足引发细胞凋亡的假设。方法:在无偏倚的基因组尺度方法中,激酶肽底物阵列用于分析光感受器变性发生时的自我生存途径。突变体Pde6b(H620Q)/Pde6b(H620Q)在P14和P18光感受器外段(OS)裂解物上用P-ATP标记,并与1,164种不同的合成肽底物杂交。在这一阶段,Pde6b(H620Q)/Pde6b(H620Q)杆状细胞的OS形态正常。体外激酶测定和免疫组织化学用于验证磷酸化。短发夹RNA (shRNA)基因沉默被用来验证tuberin在调节生存中的作用。结果:在变性开始时,162个肽被差异磷酸化。蛋白激酶A、G、C (AGC激酶)和B在肽阵列和体外激酶检测中均表现出增加的活性。免疫组织化学数据证实,磷酸化模式改变了磷酸肌苷依赖性激酶-1 (PDK1)、核糖体蛋白S6 (RPS6)和tuberin。Tuberin基因沉默使光感受器免于退化。结论:tuberin和RPS6的磷酸化是由PKB活性上调引起的。PKB/tuberin细胞生长/存活信号在变性发生前被激活。PKB/tuberin通路中AGC激酶的底物被磷酸化以促进细胞存活。在临床前RP模型中,mTOR通路抑制剂tuberin的敲除增加了光感受器的存活和功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Silencing of tuberin enhances photoreceptor survival and function in a preclinical model of retinitis pigmentosa (an american ophthalmological society thesis).

Purpose: To assess the functional consequences of silencing of tuberin, an inhibitor of the mTOR signaling pathway, in a preclinical model of retinitis pigmentosa (RP) in order to test the hypothesis that insufficient induction of the protein kinase B (PKB)-regulated tuberin/mTOR self-survival pathway initiates apoptosis.

Methods: In an unbiased genome-scale approach, kinase peptide substrate arrays were used to analyze self-survival pathways at the onset of photoreceptor degeneration. The mutant Pde6b(H620Q)/Pde6b(H620Q) at P14 and P18 photoreceptor outer segment (OS) lysates were labeled with P-ATP and hybridized to an array of 1,164 different synthetic peptide substrates. At this stage, OS of Pde6b(H620Q)/Pde6b(H620Q) rods are morphologically normal. In vitro kinase assays and immunohistochemistry were used to validate phosphorylation. Short hairpin RNA (shRNA) gene silencing was used to validate tuberin's role in regulating survival.

Results: At the onset of degeneration, 162 peptides were differentially phosphorylated. Protein kinases A, G, C (AGC kinases), and B exhibited increased activity in both peptide array and in vitro kinase assays. Immunohistochemical data confirmed altered phosphorylation patterns for phosphoinositide-dependent kinase-1 (PDK1), ribosomal protein S6 (RPS6), and tuberin. Tuberin gene silencing rescued photoreceptors from degeneration.

Conclusions: Phosphorylation of tuberin and RPS6 is due to the upregulated activity of PKB. PKB/tuberin cell growth/survival signaling is activated before the onset of degeneration. Substrates of the AGC kinases in the PKB/tuberin pathway are phosphorylated to promote cell survival. Knockdown of tuberin, the inhibitor of the mTOR pathway, increased photoreceptor survival and function in a preclinical model of RP.

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