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hrp0086fc8.3 | Growth: Clinical | ESPE2016

PAPP-A2 Gene Mutation Effects on Glucose Metabolism and Bone Mineral Density and Response to Therapy with Recombinant Human IGF-I

Salcedo Catalina Cabrera , Hwa Vivian , Tyzinski Leah , Andrew Melissa , Wasserman Halley , Backeljauw Philippe , Dauber Andrew

Background: PAPP-A2 (pregnancy-associated plasma protein A2) deficiency, caused by homozygous mutations in the PAPP-A2 gene results in a novel syndrome of significant growth failure. PAPP-A2 cleaves IGF binding proteins 3 and 5, thereby freeing IGF-I from its ternary complex and allowing it to become biologically active. We recently reported the first two families with PAPP-A2 mutations. Response to recombinant human IGF-I (rhIGF-1) in these patients is unknown.<p class="a...

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hrp0086rfc14.3 | Growth : Mechanisms | ESPE2016

Whole Exome Sequencing Identifies a GH1 Gene Mutation Causing Familial Isolated Growth Hormone Deficiency with Normal Peak Growth Hormone Concentrations

Salcedo Catalina Cabrera , Hwa Vivian , Tyzinski Leah , Andrew Melissa , Backeljauw Philippe , Dauber Andrew

Background: Familial isolated growth hormone deficiency (IGHD) type II is autosomal dominantly inherited and caused by splice-site mutations and nucleotide substitutions in the GH1 gene. The missense mutation R183H is a well-described genetic variant that causes familial IGHD type II. Individuals with this mutation have releasable GH stores, but GH secretion is severely reduced resulting in short stature.Objective and hypotheses: This study aimed to repo...

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ESPE Abstracts

PAPP-A2 Gene Mutation Effects on Glucose Metabolism and Bone Mineral Density and Response to Therapy with Recombinant Human IGF-I

Whole Exome Sequencing Identifies a GH1 Gene Mutation Causing Familial Isolated Growth Hormone Deficiency with Normal Peak Growth Hormone Concentrations

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