Children with Idiopathic Short Stature Have Significantly Different Gut Microbiota Than Their Normal Height Siblings: a Case-control Study

Overview

Journal Front Endocrinol (Lausanne)

Specialty Endocrinology

Date 2024 Mar 11

PMID 38464968

Authors

Liora Lazar

Adi Eshel

Lelyan Moadi

Michal Yackobovitch-Gavan

Meytal Bar-Maisels

Biana Shtaif

Michal Nevo

Moshe Phillip

Sondra Turjeman

Omry Koren

Galia Gat-Yablonski

Affiliations

Soon will be listed here.

Abstract

Objectives: To investigate the role of gut microbiota (GM) in pathogenesis of idiopathic short stature (ISS) by comparing GM of ISS children to their normal-height siblings.

Methods: This case-control study, conducted at the Schneider Children's Medical Center's Institute for Endocrinology and Diabetes between 4/2018-11/2020, involved 30 pairs of healthy pre-pubertal siblings aged 3-10 years, each comprising one sibling with ISS and one with normal height. Outcome measures from fecal analysis of both siblings included GM composition analyzed by 16S rRNA sequencing, fecal metabolomics, and monitoring the growth of germ-free (GF) mice after fecal transplantation.

Results: Fecal analysis of ISS children identified higher predicted levels of genes encoding enzymes for pyrimidine, purine, flavin, coenzyme B, and thiamine biosynthesis, lower levels of several amino acids, and a significantly higher prevalence of the phylum Euryarchaeota compared to their normal-height siblings (p<0.001). ISS children with higher levels of , the dominant species in the archaeal gut community, were significantly shorter in stature than those with lower levels (p=0.022). Mice receiving fecal transplants from ISS children did not experience stunted growth, probably due to the eradication of caused by exposure to oxygen during fecal collection.

Discussion: Our findings suggest that different characteristics in the GM may explain variations in linear growth. The varying levels of demonstrated within the ISS group reflect the multifactorial nature of ISS and the potential ability of the GM to partially explain growth variations. The targeting of specific microbiota could provide personalized therapies to improve growth in children with ISS.

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