Scientists have known for years that mutations in the MLL4 gene can cause Kabuki syndrome, a rare developmental disorder. But a study published in Nature Communications illuminates new details regarding how this occurs.
The research suggests that MLL4 controls the production of neurons that secrete growth hormone-releasing hormone (GHRH) in a part of the brain called the hypothalamus. Mice without working copies of the MLL4 gene in this area had stunted growth and markedly fewer GHRH neurons. Mice with only one functioning copy of the gene had similar problems.
These are important insights, as GHRH stimulates production of the growth hormone in the pituitary gland in both mice and people. While the effects of Kabuki syndrome vary, delayed growth and short stature are common among patients.
"Given our findings, inactivation of MLL4 is presumed to lead to a loss of GHRH-neurons, resulting in lack of typical growth in Kabuki patients," says the senior author. "We also researched the epigenetic activity of MLL4, and our studies suggest that MLL4 could be a great epigenetic target molecule to treat various symptoms of Kabuki syndrome."
"This is the first study that demonstrates roles of MLL4 in fate determination of neuronal cell types during development, a significant advance in our efforts to understand how cell fates are determined epigenetically, an important question remaining to be answered in modern neurobiology," says co-senior author.
Though mutations in different genes can lead to Kabuki syndrome, mutations in MLL4 are one of the most common causes of the disorder.
As part of the new study, the team used cutting-edge techniques to investigate the molecular mechanisms by which MLL4 controls the creation of GHRH-neurons in embryonic development in mice. The research shows that MLL4 helps to activate various genes involved in producing GHRH neurons, and finds that a transcription factor called NRF1 is a key partner in this process.
Moreover, the scientists showed that small chemicals that mimic the epigenetic actions of MLL4 can help to restore production of GHRH neurons.
While growth hormone therapies already exist, the author says the new research creates opportunities for exploring treatment pathways for other Kabuki syndrome symptoms.
"Kabuki syndrome has many other symptoms that are not treatable, and targeting the epigenetic activities of MLL4 could be a feasible strategy for treating other symptoms," the author says. "The principle we found -- dealing with the roles of the epigenetic activity of MLL4 in cell-type specification -- may apply to various symptoms."
http://www.buffalo.edu/news/releases/2021/01/003.html
https://www.nature.com/articles/s41467-020-20511-7
http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Fthe-histone-h3-lysine-4&filter=22
Epigenetic regulation of the development of growth hormone-releasing hormone-producing neurons
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