Protein-losing enteropathy and joint contractures caused by a novel homozygous ANTXR2 mutation.

Rita V Linkner,Edith Schussler,John A Martignetti,Kimihiko Oishi,Jacob Levitt,Lakshmi Mehta

doi:10.2147/agg.s159077

Abstract

Infantile systemic hyalinosis (ISH) is a rare autosomal recessive disorder and an allelic form of hyaline fibromatosis syndrome that is caused by mutations in the ANTRX2 gene encoding the transmembrane anthrax toxin receptor 2. Its main features include characteristic skin lesions, joint contractures, persistent diarrhea, and failure to thrive due to accumulation of hyaline material in multiple organs. The resulting severe malnutrition can cause death in early infancy. Because of its rarity and high fatality rate, timely diagnosis is difficult and ISH may be underdiagnosed. In this report, we describe a 10-month-old male with severe protein-losing enteropathy, skin lesions, and painful joint contractures, diagnosed with ISH based on skin his-topathology and identification of a novel homozygous ANTRX2 mutation, c.1127_1128delTG (p.V376Gfs*14). While its clinical outcome is poor without curative treatment, establishing a diagnosis of ISH starting from clinical suspicion to molecular analysis is important for appropriate medical management and for risk and carrier assessment of family members.

Highlights

Infantile systemic hyalinosis (ISH) (MIM #228600) is a rare autosomal recessive disorder characterized by painful joint contractures, skin hyperpigmentation over bony prominences, thickening of the skin with pearly papules, osteoporosis, bone fractures, persistent diarrhea, and failure to thrive.[1,2]
ISH is an allelic form of hyaline fibromatosis syndrome[3] caused by mutations in the ANTRX2 gene (MIM #608041), which encodes the transmembrane anthrax toxin receptor 2/ capillary morphogenesis protein-2.4 ISH generally results in life-threatening malnutrition that leads to early death in infancy, unlike its milder allelic condition, juvenile hyaline fibromatosis (JHF).[2,5,6]
Gingival hyperplasia, persistent diarrhea, and failure to thrive led to sequencing of the ANTRX2 gene and identification of a homozygous frameshift mutation in exon 14

Summary

C ASE REPORT

Protein-losing enteropathy and joint contractures caused by a novel homozygous ANTXR2 mutation. This article was published in the following Dove Press journal: Advances in Genomics and Genetics. Edith Schussler[1] Rita V Linkner[2] Jacob Levitt[2] Lakshmi Mehta[3] John A Martignetti[1,3] Kimihiko Oishi[1,3]

Introduction

G G C C AAC TGGATGCTTC

Discussion