Ying Li scite author profile

SUMMARY The medial amygdala (MeA) plays a critical role in processing species- and sex-specific signals that trigger social and defensive behaviors. However, the principles by which this deep brain structure encodes social information is poorly understood. We used a miniature microscope to image the Ca2+ dynamics of large neural ensembles in awake behaving mice and tracked the responses of MeA neurons over several months. These recordings revealed spatially intermingled subsets of MeA neurons with distinct temporal dynamics. The encoding of social information in the MeA differed between males and females and relied on information from both individual cells and neuronal populations. By performing long-term Ca2+ imaging across different social contexts, we found that sexual experience triggers lasting and sex-specific changes in MeA activity, which, in males, involve signaling by oxytocin. These findings reveal basic principles underlying the brain’s representation of social information and its modulation by intrinsic and extrinsic factors.

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Neural coding of sex-specific social information in the mouse brain

Dulac

2018

Current Opinion in Neurobiology

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Animals respond to sensory cues emitted by their conspecifics by initiating a repertoire of sex-specific social behaviors, such as mating, fighting, and parental care. These behavioral responses are thought to be largely driven by genetically pre-programmed circuits. However, they can also vary significantly according to the animal's previous social experience and physiological state, suggesting that the underlying circuits are shaped by adaptive modulatory changes. Modern tools of neuroscience have enabled the direct interrogation of circuits driving sex-specific behaviors and helped unravel key neural mechanisms underlying their function and modulation. In particular, recent work has shown how individual neuronal responses may combine with population activity to encode specific social information in both sexes. In this review, we summarize recent findings on how sex-specific sensory information is processed in social behavioral circuits.

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Uncoupling skeletal and connective tissue patterning: conditional deletion in cartilage progenitors reveals cell-autonomous requirements for Lmx1b in dorsal-ventral limb patterning

Qiu

Watson

et al. 2010

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SUMMARYIntegration of muscle, connective tissue and skeletal patterning during development is essential for proper functioning of the musculoskeletal system. How this integration is achieved is poorly understood. There is ample evidence suggesting that skeletal pattern is programmed autonomously, whereas muscle pattern is, for the most part, programmed non-cell-autonomously. Connective tissues depend upon both muscle and skeletal tissues for their proper survival and development. Here, we employed a novel approach to dissect the coordination of musculoskeletal patterning during mouse limb development. Using both conditional gain-and loss-of-function approaches, we selectively deleted or activated the LIM-homeodomain transcription factor Lmx1b in skeletal progenitors using a Sox9-Cre knock-in allele. As Lmx1b is both necessary and sufficient to specify dorsal pattern, this approach allowed us to investigate the effect of selectively deleting or activating Lmx1b in skeletal progenitors on muscle, connective and skeletal tissues during limb development. Our results indicate that whereas Lmx1b activity is required autonomously in skeletal progenitors to direct dorsal pattern, loss or gain of Lmx1b activity in skeletal progenitors has no effect on muscle or connective tissue patterning. Hence, we show for the first time that skeletal and connective tissue patterning can be uncoupled, indicating a degree of autonomy in the formation of the musculoskeletal system.

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Ying Li

Neuronal Representation of Social Information in the Medial Amygdala of Awake Behaving Mice

Neural coding of sex-specific social information in the mouse brain

Uncoupling skeletal and connective tissue patterning: conditional deletion in cartilage progenitors reveals cell-autonomous requirements for Lmx1b in dorsal-ventral limb patterning

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