The structure and function of habenula / 生理学报

The habenula (Hb) is an evolutionarily conserved diencephalic structure in vertebrates. It is considered as an emotion center and plays critical roles in regulating diverse types of emotion-related behaviors, including anxiety, fear, reward, depression, and nicotine withdrawal. On the one hand, action selection- and emotion-relevant inputs are transferred to the Hb through the basal ganglia and limbic system, respectively. At the same time, sensory inputs of multiple modalities also converge on the Hb. Among them, the visual input of the Hb from the retina ganglion cells ‒ thalamus pathway has been found to play a critical role in light-preference behavior of zebrafish. On the other hand, the Hb projects to two main neuromodulatory systems, the dopaminergic system and the serotoninergic system. As the Hb receives both internal emotion inputs and external sensory inputs and regulates the function of neuromodulatory systems, its functions are quite diverse and complex. In this review, we summarize the progress in both the structure and connection of the Hb and propose future study direction.

Establishment of an anesthesia model induced by etomidate in larval zebrafish / 生理学报

Despite the wide application of general anesthetic drugs in clinic, it is still unclear how these drugs induce the state of general anesthesia. Larval zebrafish has emerged as an ideal model for dissecting the mechanism of neural systems due to the conserved and simple brain structure. In the present study, we established an anesthesia model from behavioral to electrophysiological levels using larval zebrafish for the first time. Bath application of etomidate, as a kind of intravenous anesthetic drugs, suppressed the spontaneous locomotion of zebrafish in a concentration-dependent manner. Consistently, in vivo fictive motor patterns of spinal motoneurons recorded extracellularly were significantly inhibited as well. Furthermore, using in vivo extracellular recording and whole-cell recording, we found that etomidate application suppressed local field potentials (LFP) of the brain and blocked visually evoked responses of optic tectal neurons. The study indicates that larval zebrafish can serve as an ideal vertebrate animal model for studying neural mechanisms underlying general anesthesia.

Progress in the study of the blood-brain barrier / 生理学报

Blood-brain barrier (BBB) precisely controls the material exchange between the blood and brain tissue, and plays a critical role in the maintenance of brain microenvironment homeostasis. Brain microvascular endothelial cells connect tightly with each other and intertwine with surrounding pericytes and astrocytes to form the BBB. These cells regulate the development and function of the BBB through expressing tight and adherens junction proteins, transporters, and relevant signal molecules. Neurons and microglia can also regulate the function of BBB in physiological and pathological conditions. Recent studies indicate that the occurrence and progress of various neurological diseases are accompanied with structural and functional impairment of the BBB. Therefore, elucidation of the mechanisms underlying BBB development and function will further benefit our understanding of neurovascular interaction and provide an important theoretical basis for the treatment of neurological diseases. In this review, we briefly summarize the progress of BBB research.

Physiological properties and functions of microglia / 生理学报

Microglia, the resident immune effective cells of the central nervous system, play crucial roles in mediating immune-related process. It becomes activated quickly in response to even minor pathological insults and participates in series of immune responses. Under physiological conditions, most microglia stay in a typical resting state, with ramified processes continuously extending and retracting from surrounding neural tissues, suggesting an important function of resting microglia. Recent studies indicate that resting microglia can regulate many physiological processes, including neural development, neural circuit formation, neuronal activity and plasticity, and animal grooming behavior. Here, we review the properties of resting microglia and further discuss how microglia participate in the above-mentioned functional regulation under physiological conditions.