Study Explaining Why Women Talk More than Men. Language Protein Differs in Males and Females

New research by the University of Maryland School of Medicine indicates there may be a biological reason why women talk more than men. Girl’s brains have higher levels of a “language protein” called Foxp2, according to a study published in The Journal of Neuroscience. The findings may shed light on sex differences in communication in animals and language acquisition in people. Sex differences in early language acquisition and development in children are well documented. On average, girls tend to speak earlier and with greater complexity than boys of the same age. However, scientists continue to debate the origin and significance of such differences. Previous studies showed the Foxp2 protein plays an important role in speech and language development in humans and vocal communication in birds and other mammals.In the current study, J. Michael Bowers, PhD, Margaret McCarthy, PhD, and colleagues examined whether sex differences in the expression of the Foxp2 protein in the developing brain might underlie communication differences between the sexes. The researchers studied the brains of rats and conducted a preliminary study in humans. In both rats and humans, the higher levels of Foxp2 expression are found in the more communicative sex in each species. “This study is one of the

first to report a sex difference in the expression of a language-associated protein in humans or animals,” says Dr. McCarthy, professor and chair of Pharmacology at the University of Maryland School of Medicine. “The findings raise the possibility that sex differences in brain and behavior are more pervasive and established earlier than previously appreciated.” The researchers first analyzed the levels of Foxp2 protein in the brains of four-day-old female and male rats and compared the ultrasonic distress calls made by the animals when separated from their mothers and siblings. Compared with females, males had more of the protein in brain areas associated with cognition, emotion, and vocalization. They also made more noise than females — producing nearly double the total vocalizations over the five-minute separation period — and were preferentially retrieved and returned to the nest first by the mother. When the researchers altered levels of Foxp2 protein in the rat pups, they reversed the sex difference in the distress calls, causing males to sound like females and the females like males. This change led the mother to reverse her behavior as well, preferentially retrieving the females over the males. The researchers extended their findings to humans in a preliminary study of FOXP2 protein in a small group of children. Unlike the rats, in which Foxp2 protein was elevated in males, they found that in humans, the girls had more of the Foxp2 protein in the cortex — a brain region associated with language — than age-matched boys. “The major finding that we discovered was that this protein Foxp2 is involved in vocalization,” says Dr. Bowers. “We can’t say that this is end-all-be-all reasoning, but it is one of the first avenues with which we can start to explore why women tend to be more verbal than men.” This research was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Mental Health. News from: University of Maryland School of Medicine

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