Institute of Pharmacology and Toxicology and Bio-Imaging Center, University of Würzburg, Würzburg, Germany.
Department of Internal Medicine I, Division of Endocrinology and Diabetes, University Hospital, University of Würzburg, Würzburg, Germany.
Endocrinology. 2019 Feb 1;160(2):447-459. doi: 10.1210/en.2018-00775.
Cushing syndrome is a severe endocrine disorder of cortisol excess associated with major metabolic and cardiovascular sequelae. We recently identified somatic mutations in PRKACA, the gene encoding the catalytic (C) α subunit of protein kinase A (PKA), as being responsible for cortisol-producing adrenocortical adenomas (CPAs), which are a major cause of Cushing syndrome. In spite of previous studies on the two initially identified mutations (L206R, 199_200insW), the mechanisms of action of the clinically highly relevant PRKACA mutations remain poorly understood. Here, by investigating a large panel of PRKACA mutations, including all those identified so far in Cushing syndrome, we unexpectedly found that not all mutations interfere with the binding of regulatory (R) subunits as previously hypothesized. Because several mutations lie in a region of PKA Cα involved in substrate recognition, we investigated their consequences on substrate specificity by quantitative phosphoproteomics. We found that all three mutations analyzed (L206R, 200_201insV, and d244-248+E249Q) cause major changes in the preference of PKA for its targets, leading to hyperphosphorylation of several PKA substrates, most notably including histone H1.4 at Ser36, which is required for and promotes mitosis. This is reflected by a ninefold hyperphosphorylation of H1.4 in CPAs carrying the L206R mutation. Thus, our findings suggest that in addition to hampering binding to R subunits, PRKACA mutations act by altering PKA substrate specificity. These findings shed light on the molecular events leading to Cushing syndrome and illustrate how mutations altering substrate specificity of a protein kinase may cause human disease.
库欣综合征是一种严重的皮质醇过多引起的内分泌紊乱,与主要的代谢和心血管后果有关。我们最近发现,编码蛋白激酶 A(PKA)催化(C)α亚基的 PRKACA 基因中的体细胞突变是导致产生皮质醇的肾上腺皮质腺瘤(CPA)的原因,这是库欣综合征的主要原因。尽管之前对最初确定的两种突变(L206R、199_200insW)进行了研究,但临床上高度相关的 PRKACA 突变的作用机制仍知之甚少。在这里,通过研究包括迄今为止在库欣综合征中发现的所有 PRKACA 突变在内的大型 PRKACA 突变面板,我们出人意料地发现,并非所有突变都像以前假设的那样干扰调节(R)亚基的结合。由于几个突变位于 PKA Cα中涉及底物识别的区域,我们通过定量磷酸化蛋白质组学研究了它们对底物特异性的影响。我们发现,分析的三种突变(L206R、200_201insV 和 d244-248+E249Q)都导致 PKA 对其靶标的偏好发生重大变化,导致 PKA 底物的过度磷酸化,特别是包括组蛋白 H1.4 在丝氨酸 36 处,这是有丝分裂所必需的,并促进有丝分裂。这反映在携带 L206R 突变的 CPA 中,H1.4 的磷酸化增加了九倍。因此,我们的研究结果表明,除了干扰与 R 亚基的结合外,PRKACA 突变还通过改变 PKA 底物特异性起作用。这些发现揭示了导致库欣综合征的分子事件,并说明了如何改变蛋白激酶的底物特异性可能导致人类疾病。
