MKRN3 inhibits puberty onset via interaction with IGF2BP1 and regulation of hypothalamic plasticity
Lydie Naulé, Alessandra Mancini, Sidney A. Pereira, Brandon M. Gassaway, John R. Lydeard, Kayleigh Rutherford, John C. Magnotto, Han Kyeol Kim, Joy Liang, Cynara Matos, Steven P. Gygi, Florian T. Merkle, Rona S. Carroll, Ana Paula Abreu, Ursula B. Kaiser
Lydie Naulé, Alessandra Mancini, Sidney A. Pereira, Brandon M. Gassaway, John R. Lydeard, Kayleigh Rutherford, John C. Magnotto, Han Kyeol Kim, Joy Liang, Cynara Matos, Steven P. Gygi, Florian T. Merkle, Rona S. Carroll, Ana Paula Abreu, Ursula B. Kaiser
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Research Article Endocrinology Neuroscience

MKRN3 inhibits puberty onset via interaction with IGF2BP1 and regulation of hypothalamic plasticity

Abstract

Makorin ring finger protein 3 (MKRN3) was identified as an inhibitor of puberty initiation with the report of loss-of-function mutations in association with central precocious puberty. Consistent with this inhibitory role, a prepubertal decrease in Mkrn3 expression was observed in the mouse hypothalamus. Here, we investigated the mechanisms of action of MKRN3 in the central regulation of puberty onset. We showed that MKRN3 deletion in hypothalamic neurons derived from human induced pluripotent stem cells was associated with significant changes in expression of genes controlling hypothalamic development and plasticity. Mkrn3 deletion in a mouse model led to early puberty onset in female mice. We found that Mkrn3 deletion increased the number of dendritic spines in the arcuate nucleus but did not alter the morphology of GnRH neurons during postnatal development. In addition, we identified neurokinin B (NKB) as an Mkrn3 target. Using proteomics, we identified insulin-like growth factor 2 mRNA-binding protein 1 (IGF2BP1) as another target of MKRN3. Interactome analysis revealed that IGF2BP1 interacted with MKRN3, along with several members of the polyadenylate-binding protein family. Our data show that one of the mechanisms by which MKRN3 inhibits pubertal initiation is through regulation of prepubertal hypothalamic development and plasticity, as well as through effects on NKB and IGF2BP1.

Authors

Lydie Naulé, Alessandra Mancini, Sidney A. Pereira, Brandon M. Gassaway, John R. Lydeard, Kayleigh Rutherford, John C. Magnotto, Han Kyeol Kim, Joy Liang, Cynara Matos, Steven P. Gygi, Florian T. Merkle, Rona S. Carroll, Ana Paula Abreu, Ursula B. Kaiser

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Figure 7

Mkrn3 deletion increases Igf2bp1 protein levels in the ARC.

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Mkrn3 deletion increases Igf2bp1 protein levels in the ARC. (A) Volcano...
(A) Volcano plot illustrating the significant changes in abundance of detected peptides in Mkrn3KO compared with Mkrn3WT mice in the ARC at PND15. Vertical lines represent a 25% increase in fold-change; horizontal line represents an FDR of 0.01 for Mkrn3WT (n = 2) and Mkrn3KO (n = 3) male and Mkrn3WT (n = 3) and Mkrn3KO (n = 3) female mice. (B and C) Relative TMT signal-to-noise levels for (B) Mkrn3 and (C) Igf2bp1 proteins in the ARC of PND15 Mkrn3WT (n = 2) and Mkrn3KO (n = 3) male and Mkrn3WT (n = 3) and Mkrn3KO (n = 3) female mice. TMT RA, tandem mass tag relative abundance. (D) Representative images of Igf2bp1 immunoreactivity in the ARC of Mkrn3WT and Mkrn3KO females at PND15. (E) Quantification of the mean density of Igf2bp1 immunoreactivity in the ARC of Mkrn3WT (n = 6) and Mkrn3KO (n = 5) females at PND15. Scale bar = 100 μm. Statistics were performed using unpaired 2-tailed t test. Data are presented as mean ± SEM. *P < 0.05 compared with Mkrn3WT mice.