Department of Medical Sciences, Università degli Studi di Milano, Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico, Milan, Italy.
Horm Metab Res. 2012 Sep;44(10):716-23. doi: 10.1055/s-0032-1314842. Epub 2012 Jun 6.
Pseudohypoparathyroidism-Ia and -Ib (PHP-Ia and -Ib) are caused by mutations in GNAS exons 1-13 and methylation defects in the imprinted GNAS cluster, respectively. PHP-Ia patients show Albright hereditary osteodystrophy (AHO), together with resistance to the action of different hormones that activate the Gs-coupled pathway. In PHP-Ib patients AHO is classically absent and hormone resistance is limited to PTH and TSH. This disorder is caused by GNAS methylation alterations with loss of imprinting at the exon A/B differentially methylated region (DMR) being the most consistent and recurrent defect. The familial form of the disease (AD-PHP-Ib) is typically associated with an isolated loss of imprinting at the exon A/B DMR due to microdeletions disrupting the upstream STX16 gene. In addition, deletions removing the entire NESP55 DMR, located within GNAS, associated with loss of all the maternal GNAS imprints have been identified in some AD-PHP-Ib kindreds. Conversely, most sporadic PHP-Ib cases have GNAS imprinting abnormalities that involve multiple DMRs, but the genetic lesion underlying these defects is unknown. Recently, methylation defects have been detected in a subset of patients with PHP-Ia and variable degrees of AHO, indicating a molecular overlap between the 2 forms. Imprinting defects do not seem to be associated with the severity of AHO neither with specific AHO signs. In conclusion, the latest findings on the molecular basis underlying these defects suggest the existence of a clinical and genetic/epigenetic overlap between PHP-Ia and PHP-Ib, and highlight the necessity of a new clinical classification of these disorders based on molecular findings.
假性甲状旁腺功能减退症-Ia 型(PHP-Ia)和 -Ib 型(PHP-Ib)分别由 GNAS 外显子 1-13 的突变和印迹的 GNAS 簇的甲基化缺陷引起。PHP-Ia 型患者表现为阿-希二氏综合征(AHO),同时对不同激活 Gs 偶联途径的激素产生抵抗。在 PHP-Ib 型患者中,AHO 经典地不存在,且激素抵抗仅限于 PTH 和 TSH。该疾病由 GNAS 甲基化改变引起,印迹缺失发生在exon A/B 差异甲基化区(DMR),是最一致和最常见的缺陷。该疾病的家族形式(AD-PHP-Ib)通常与由于微缺失破坏上游 STX16 基因而导致的 exon A/B DMR 中孤立的印迹缺失相关。此外,已在一些 AD-PHP-Ib 家系中鉴定出缺失整个 NESP55 DMR 的缺失,该 DMR 位于 GNAS 内,与所有母系 GNAS 印迹的丢失相关。相反,大多数散发性 PHP-Ib 病例具有涉及多个 DMR 的 GNAS 印迹异常,但这些缺陷的遗传病变尚不清楚。最近,在一些 PHP-Ia 型和具有不同程度 AHO 的患者中检测到甲基化缺陷,表明这两种形式之间存在分子重叠。印迹缺陷似乎与 AHO 的严重程度或特定的 AHO 体征无关。总之,这些缺陷的分子基础的最新发现表明 PHP-Ia 和 PHP-Ib 之间存在临床和遗传/表观遗传重叠,并强调有必要基于分子发现对这些疾病进行新的临床分类。
