LGR4 deficiency results in delayed puberty through impaired Wnt/β-catenin signaling
Alessandra Mancini, Sasha R. Howard, Federica Marelli, Claudia P. Cabrera, Michael R. Barnes, Michael J.E. Sternberg, Morgane Leprovots, Irene Hadjidemetriou, Elena Monti, Alessia David, Karoliina Wehkalampi, Roberto Oleari, Antonella Lettieri, Valeria Vezzoli, Gilbert Vassart, Anna Cariboni, Marco Bonomi, Marie Isabelle Garcia, Leonardo Guasti, Leo Dunkel
Alessandra Mancini, Sasha R. Howard, Federica Marelli, Claudia P. Cabrera, Michael R. Barnes, Michael J.E. Sternberg, Morgane Leprovots, Irene Hadjidemetriou, Elena Monti, Alessia David, Karoliina Wehkalampi, Roberto Oleari, Antonella Lettieri, Valeria Vezzoli, Gilbert Vassart, Anna Cariboni, Marco Bonomi, Marie Isabelle Garcia, Leonardo Guasti, Leo Dunkel
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Research Article Endocrinology Reproductive biology

LGR4 deficiency results in delayed puberty through impaired Wnt/β-catenin signaling

Abstract

The initiation of puberty is driven by an upsurge in hypothalamic gonadotropin-releasing hormone (GnRH) secretion. In turn, GnRH secretion upsurge depends on the development of a complex GnRH neuroendocrine network during embryonic life. Although delayed puberty (DP) affects up to 2% of the population, is highly heritable, and is associated with adverse health outcomes, the genes underlying DP remain largely unknown. We aimed to discover regulators by whole-exome sequencing of 160 individuals of 67 multigenerational families in our large, accurately phenotyped DP cohort. LGR4 was the only gene remaining after analysis that was significantly enriched for potentially pathogenic, rare variants in 6 probands. Expression analysis identified specific Lgr4 expression at the site of GnRH neuron development. LGR4 mutant proteins showed impaired Wnt/β-catenin signaling, owing to defective protein expression, trafficking, and degradation. Mice deficient in Lgr4 had significantly delayed onset of puberty and fewer GnRH neurons compared with WT, whereas lgr4 knockdown in zebrafish embryos prevented formation and migration of GnRH neurons. Further, genetic lineage tracing showed strong Lgr4-mediated Wnt/β-catenin signaling pathway activation during GnRH neuron development. In conclusion, our results show that LGR4 deficiency impairs Wnt/β-catenin signaling with observed defects in GnRH neuron development, resulting in a DP phenotype.

Authors

Alessandra Mancini, Sasha R. Howard, Federica Marelli, Claudia P. Cabrera, Michael R. Barnes, Michael J.E. Sternberg, Morgane Leprovots, Irene Hadjidemetriou, Elena Monti, Alessia David, Karoliina Wehkalampi, Roberto Oleari, Antonella Lettieri, Valeria Vezzoli, Gilbert Vassart, Anna Cariboni, Marco Bonomi, Marie Isabelle Garcia, Leonardo Guasti, Leo Dunkel

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Figure 1

Identification of LGR4 as a candidate gene for self-limited DP with rare pathogenic variants in patients.

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Identification of LGR4 as a candidate gene for self-limited DP with rare...
(A) Whole-exome sequencing (WES) was performed on 160 individuals from our cohort (125 with self-limited DP and 35 controls). Variants were filtered using filters for quality control, predicted functional annotation, minor allele frequency (MAF), and for genes with variants in multiple families. A total of 28 genes were prioritized and were targeted exome sequenced in additional 288 individuals. Further analysis identified genes significantly enriched for pathogenic variants via whole gene burden testing, and genes involved in GnRH neuronal development and puberty timing (1, 2, 10, 11). Excluded, owing to the presence of variants in multiple controls. (B) Squares and circles indicate male and female family members, respectively. Black symbols represent affected individuals, gray symbols represent unknown phenotype, and clear symbols represent unaffected individuals. “P” indicates the proband in each family, and “us” indicates unsequenced owing to lack of DNA. A black line above an individual’s symbol indicates heterozygosity for that mutation as confirmed by either WES or Fluidigm array, and verified by Sanger sequencing. (C) LGR4 extracellular domain (gold) with variants bound to R-spondin1 (blue). Variants p.I96V and p.G363C are presented (green). p.I96V and p.G363C are in the variable region of LRR2 and LRR12, respectively. p.G363C occurs in close proximity to a cysteine bond (C339-C364; orange), and this substitution introduces a steric clash. p.D844G is within the cytoplasmic domain, and no experimental structure for the LGR4 cytoplasmic domain was available. DP, delayed puberty.