Division of Pediatrics, Department of Pediatric Gastroenterology, Wilhelmina Children's Hospital, University Medical Center Utrecht (UMCU), Utrecht University (UU), 3584 CT Utrecht, The Netherlands.
Regenerative Medicine Center, UMCU, UU, 3584 CT Utrecht, The Netherlands.
Int J Mol Sci. 2020 Nov 2;21(21):8200. doi: 10.3390/ijms21218200.
Hyaline fibromatosis syndrome (HFS), resulting from mutations, is an ultra-rare disease that causes intestinal lymphangiectasia and protein-losing enteropathy (PLE). The mechanisms leading to the gastrointestinal phenotype in these patients are not well defined. We present two patients with congenital diarrhea, severe PLE and unique clinical features resulting from deleterious mutations. Intestinal organoids were generated from one of the patients, along with CRISPR-Cas9 knockout, and compared with organoids from two healthy controls. The ANTXR2-deficient organoids displayed normal growth and polarity, compared to controls. Using an anthrax-toxin assay we showed that the c.155C>T mutation causes loss-of-function of ANTXR2 protein. An intrinsic defect of monolayer formation in patient-derived or organoids was not apparent, suggesting normal epithelial function. However, electron microscopy and second harmonic generation imaging showed abnormal collagen deposition in duodenal samples of these patients. Specifically, collagen VI, which is known to bind ANTXR2, was highly expressed in the duodenum of these patients. In conclusion, despite resistance to anthrax-toxin, epithelial cell function, and specifically monolayer formation, is intact in patients with HFS. Nevertheless, loss of ANTXR2-mediated signaling leads to collagen VI accumulation in the duodenum and abnormal extracellular matrix composition, which likely plays a role in development of PLE.
纤维瘤样透明变性综合征(HFS)是一种由 基因突变引起的超罕见疾病,可导致肠淋巴管扩张和蛋白丢失性肠病(PLE)。导致这些患者出现胃肠道表型的机制尚未明确。我们报告了两名患有先天性腹泻、严重 PLE 且具有独特临床表现的患者,他们均存在致病性 基因突变。我们从其中一名患者中生成了肠道类器官,并进行了 CRISPR-Cas9 基因敲除,然后将其与来自两名健康对照者的类器官进行了比较。与对照组相比,ANTXR2 缺陷型类器官显示出正常的生长和极性。通过炭疽毒素测定,我们发现 c.155C>T 突变导致 ANTXR2 蛋白功能丧失。在患者来源的类器官或 类器官中,并未明显出现单层形成的内在缺陷,提示上皮功能正常。然而,电子显微镜和二次谐波产生成像显示这些患者的十二指肠样本中存在异常胶原沉积。具体而言,已知与 ANTXR2 结合的胶原 VI 在这些患者的十二指肠中高度表达。总之,尽管对炭疽毒素有抗性,上皮细胞功能,特别是单层形成,在 HFS 患者中是完整的。然而,ANTXR2 介导的信号转导丧失导致胶原 VI 在十二指肠中的积累和异常细胞外基质组成,这可能在 PLE 的发展中起作用。
