The findings in mice indicate that a site within the hypothalamus called the ventral premammillary nucleus, or PMV, is the target where the hormone leptin effectively kick starts puberty in females.
Researchers have known that puberty starts when individuals have enough energy stores or fat to meet the demands of reproduction, and that leptin – a hormone produced by fat cells – acts in the brain to mediate this process, but the precise locale in the brain where leptin exerts this effect remained unclear.
|Dr. Carol Elias (right) and postdoctoral researchers (from left) Jose Donato Jr., Renata Frazao and Roberta Cravo found that leptin in the PMV area of the brain may trigger puberty in females.|
“We found that the PMV is a key site of leptin action on puberty. This may not be the only site, considering the importance of the reproductive function for species survival, but the role played by PMV neurons has not been recognized before,” said Dr. Carol Elias, assistant professor of internal medicine at UT Southwestern and senior author of the article available online and in the Jan. 4, 2011, print issue of the Journal of Clinical Investigation. “Our findings show that leptin action only in the PMV is sufficient to induce puberty in female mice.”
Prior research has shown that in mice and humans lacking leptin, puberty grinds to a screeching halt at the prepubescent level, and the animals are infertile. Studies also have shown that reintroducing leptin to leptin-deficient people causes puberty to resume. Partly because of this, some researchers speculate that obese children may begin puberty earlier due to the higher levels of leptin produced by their fat tissues.
“We are witnessing an alarming situation in which the increasing incidence of childhood obesity may be inducing an advance in the onset of puberty in girls,” Dr. Elias said. “The main obstacle for researchers in the field has been identifying the cell population involved in this event.”
In this study, the researchers wanted to determine where leptin plays its role. To do this, they developed transgenic mouse models in which the mice had functional leptin receptors only in the PMV. Because of the lack of leptin signaling everywhere else in the body, the mice were obese but showed pubertal development and were able to get pregnant.
“One result that surprised us was that leptin acting only in the PMV was sufficient to induce puberty and improve fertility in females, but not in males,” Dr. Elias said. “We’re now trying to understand what’s going on with males and whether leptin acts in different brain sites to induce puberty and fertility in males.”
The next step, Dr. Elias said, will be to determine the molecular mechanism behind leptin’s effects on puberty and reproductive control.
Other UT Southwestern researchers involved in the study included Drs. Jose Donato Jr. and Roberta Cravo, co-lead authors and postdoctoral researchers in internal medicine; Dr. Renata Frazão, postdoctoral researcher in internal medicine; Dr. Lisandra Margatho, former postdoctoral researcher in internal medicine; Drs. Laurent Gautron, Michael Scott and Syann Lee, instructors of internal medicine; Charlotte Lee, senior research scientist; Dr. James Richardson, professor of pathology, molecular biology and plastic surgery; Dr. Roberto Coppari, assistant professor of internal medicine; Dr. Jeffrey Zigman, assistant professor of internal medicine and psychiatry; and Dr. Joel Elmquist, professor of internal medicine, psychiatry and pharmacology.
Researchers from the University of São Paulo, Acceleron Pharma, Rockefeller University and the Albert Einstein College of Medicine also participated.
The study was supported by the National Institutes of Health, the Foundation for Research Support of the State of São Paulo, and the Brazilian Federal Agency for the Support and Evaluation of Graduate Education.
Visit http://www.utsouthwestern.org/pediatrics to learn more about clinical services in pediatrics at UT Southwestern.
Media Contact: Kristen Holland Shear