North Texas Dentistry Volume 5 Issue 2 - Page 5

Baylor College of Dentistry New findings could revolutionize dogma on bone formation in the temporomandibular joint By Jennifer Eure Fuentes Findings from researchers at Texas A&M University Baylor College of Dentistry could prove to upend previous dogma on bone formation in the temporomandibular joint. The current school of thought on bone formation in the mandibular condyle, the rounded knob where the mandible and upper jaw meet, is that cartilage cells — called chondrocytes — must form and then experience cell death before bone cells can form. Preliminary findings from the lab of Dr. Jerry Feng, professor in the department of biomedical sciences, show this may not be the case. Bone marrow cells may not be the only ones that build bone. “The chondrocytes do not die. They transform into bone,” says Feng. “This is the most exciting part. That’s a big switch. People in this field never thought about such a mechanism.” Feng’s team submitted a proposal to the National Institutes of Health – National Institute of Dental and Craniofacial Research to secure more than $1.8 million in grant funding to further evaluate how this transformation of cartilage into bone takes place. Cell lineage tracing on a transgenic mouse model lies at the crux of their hypothesis. In confocal microscopic images, cells tagged with reporter genes reveal the merging of bone and cartilage proteins seen in representative shades of red and green, one for each type of protein. Several published articles, including one in the Journal of Dental Research in fall 2014, bolster the proposal. “The idea is that the cell lineage tracing enables you to follow cartilage cells and see where they end up during growth,” says Dr. Robert Hinton, Regents professor emeritus. “You would expect the condylar cartilage cells under the normal theory to end up dying off, but it appears that a number of them are turning into bone cells or potentially forming the walls of blood vessels.” If the five-year grant is funded, TAMBCD researchers will further study the role of a gene known as BMPR1A in mediating Osterix, a gene vital to bone mineralization. They will do this by separately removing, or “knocking out” BMPR1A in one control group of models and Osterix in another to gauge the impact on cartilage and bone formation. Hinton has worked with Feng on this research and says the potential for transmitting this cutting-edge research to students is tantalizing, as it creates unique research opportunities for students. “This is stuff that is not in textbooks right now that can be brought into discussions about how bone is formed from cartilage during growth,” says Hinton. Feng works on research with orthodontic residents and biomedical doctoral students, to whom he also teaches bone biology. Physiology course instruction for predoctoral students is also a part of his role at the college. The research stands to impact the knowledge base regarding how the temporomandibular joint grows and develops. In turn, this new information could change approaches to treating malocclusions and even have an impact on new therapies for injuries to cartilage, which, unlike bone, cannot repair itself. “You can’t solve this problem overnight,” says Feng, “but step by step.” Founded in 1905, Texas A&M University Baylor College of Dentistry in Dallas is a college of the Texas A&M Health Science Center. TAMBCD is a nationally recognized center for oral health sciences education, research, specialized patient care and continuing dental education. Jennifer Eure Fuentes is a communications specialist at Texas A&M Health Science Center Baylor College of Dentistry. A 2006 graduate of Texas Christian University, she has worked in the communications and editorial field for five years. www.northtexasdentistry.com | NORTH TEXAS DENTISTRY 5