Frontiers in Endocrinology (Feb 2019)

MKRN3 Interacts With Several Proteins Implicated in Puberty Timing but Does Not Influence GNRH1 Expression

  • Venkatram Yellapragada,
  • Venkatram Yellapragada,
  • Xiaonan Liu,
  • Xiaonan Liu,
  • Carina Lund,
  • Carina Lund,
  • Johanna Känsäkoski,
  • Kristiina Pulli,
  • Kristiina Pulli,
  • Sanna Vuoristo,
  • Karolina Lundin,
  • Timo Tuuri,
  • Markku Varjosalo,
  • Markku Varjosalo,
  • Taneli Raivio,
  • Taneli Raivio,
  • Taneli Raivio

DOI
https://doi.org/10.3389/fendo.2019.00048
Journal volume & issue
Vol. 10

Abstract

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Paternally-inherited loss-of-function mutations in makorin ring finger protein 3 gene (MKRN3) underlie central precocious puberty. To investigate the puberty-related mechanism(s) of MKRN3 in humans, we generated two distinct bi-allelic MKRN3 knock-out human pluripotent stem cell lines, Del 1 and Del 2, and differentiated them into GNRH1-expressing neurons. Both Del 1 and Del 2 clones could be differentiated into neuronal progenitors and GNRH1-expressing neurons, however, the relative expression of GNRH1 did not differ from wild type cells (P = NS). Subsequently, we investigated stable and dynamic protein-protein interaction (PPI) partners of MKRN3 by stably expressing it in HEK cells followed by mass spectrometry analyses. We found 81 high-confidence novel protein interaction partners, which are implicated in cellular processes such as insulin signaling, RNA metabolism and cell-cell adhesion. Of the identified interactors, 20 have been previously implicated in puberty timing. In conclusion, our stem cell model for generation of GNRH1-expressing neurons did not offer mechanistic insight for the role of MKRN3 in puberty initiation. The PPI data, however, indicate that MKRN3 may regulate puberty by interacting with other puberty-related proteins. Further studies are required to elucidate the possible mechanisms and outcomes of these interactions.

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