A College at Buffalo analysis workforce led by oral biologist Dr. Hyuk-Jae (Edward) Kwon has superior the understanding of genetic problems that weaken tooth enamel by turning off a gene referred to as KMT2D in mice.
The research, revealed within the Journal of Dental Analysismarks the primary in-depth investigation figuring out KMT2D as a key regulator in enamel formation
Kwon, an affiliate professor within the Division of Oral Biology at UB’s College of Dental Drugs, and his workforce genetically engineered mice with the KMT2D gene deactivated in enamel-forming cells. The end result: the mice developed tooth that had been tough, chalky and thinner than regular—intently resembling the dental anomalies seen in sufferers with Kabuki syndrome, a uncommon genetic dysfunction.
“What we began to see is that these mice developed tooth that had been very fragile and would break after they chewed on their chow,” stated Kwon, DDS, PhD.
The KMT2D gene, often known as MLL4, encodes an enzyme known as lysine-specific methyltransferase 2D, which performs a job in regulating gene expression in varied tissues. The workforce found that enamel defects started even earlier than the tooth emerged by way of the gums.
“We realized that KMT2D serves as a form of ‘on swap’ for enamel-building in tooth cells,” Kwon stated. “If this gene is lacking or disrupted, the cells don’t obtain the best alerts, and the enamel-producing cells fail to develop correctly.”
The analysis additionally means that focusing on KMT2D with particular medication may doubtlessly reverse enamel defects and even stop craniofacial delivery defects.
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Exploring cleft palate and future therapies
The workforce is now testing candidate medication in pregnant mice to find out whether or not they can stop or reverse oral delivery defects throughout mid-gestation. One focus is cleft palatea standard craniofacial anomaly additionally related to Kabuki syndrome.
“When mice are born with a cleft palate, they die 100 per cent of the time,” Kwon stated. “Whereas people can survive and bear surgical procedure, cleft palate could be a important burden for sufferers and their households. If we may stop these problems from occurring, it could be a recreation changer.”
Recognition and funding
Kwon was lately awarded second place within the IADR Joseph Lister Award for New Investigators on the 2025 Worldwide Affiliation for Dental, Oral and Craniofacial Analysis (IADR) Pan European Area Normal Session in Barcelona, Spain.
His colleague, Dr. Jung-Mi Lee, a analysis scientist in UB’s Division of Oral Biology, performed a key function within the research by eradicating the gene within the oral epithelium. Lee has since obtained a two-year, $320,000 grant from the U.S. Nationwide Institute of Dental and Craniofacial Analysis to additional examine the gene’s regulatory mechanisms in dental regeneration.
“Our long-term aim is to grasp methods to regenerate organs,” Lee stated. “And to do this, probably the most primary step is figuring out the molecular mechanisms that drive tissue growth.”
Different contributors to the research embody Drs. Soo-Kyung Lee and Jae W. Lee, professors in UB’s Division of Organic Sciences and co-directors of the FOXGI Analysis Middle, and Dr. Yungki Park, affiliate professor of biochemistry on the Jacobs College of Drugs and Biomedical Sciences.
