Objective To investigate the differential expressions of serum proteins by proteomics approach in rat model of sleep deprivation. Methods A rat model of 24-h rapid eye movement sleep deprivation was induced by MMPM. Twenty-four rats were randomly and averagely divided into three groups, namely, model group (M), model control group (MC) and blank control group (BC). Changes of body mass in rats were observed. Morris water maze test was used to evaluate the effect of sleep deprivation on learning and memory ability. Serum proteins were separated by two-dimensional electrophoresis and identified by LC-MS/MS. Results There was no significant difference in rat body weight between BC group and MC group. After sleep deprivation, mental irritable, pelage dull and weight loss were found in M group, but no significant changes were found in learning and memory ability. There were no significant differences in the number of protein spots between three groups. Four proteins were down regulated:Serotransferrin, Glutathione peroxidase 3, Ig kappa chain C region, B allele and Collagen alpha-2(I) chain. Conclusion The short term sleep deprivation may be related to iron metabolism, oxidative stress and immune function in rats.

Sleep is essential for the maintenance of human normal functions.Nowadays,the occurrence of active sleep deprivation(ASD)or passive sleep depriva-tion(PSD)is becoming more and more common due to the inability of the body adapting to the rapid changes in the internal and external environment.SD is not only an action,a brief process or a result,but also a directly or indirectly sustained state,which is associated to sleep time,circadian rhythm or sleep quality.SD can lead to numerous adverse effects on the body,such as sleep-related acute and chronic diseases.Long-term SD increases the risk of neurological and cardiovascular dis-eases as well as immune system dysfunction.In addi-tion,SD may affect the reproductive health of the body,giving rise to a series of potential fertility problems.In recent years,the correlation research and mechanism between SD and the related diseases have become a focus of scholars' attention.Numerous lines of evidence suggest that pathological sleep,such as insomnia and sleep apnea syndrome,is associated with impaired repro-ductive function.Disruptions in the circadian rhythm can also lead to impaired hypothalamic-pituitary-gonadal(HPG)axis function and thereby interfere with the repro-ductive process.Our research team has demonstrated that SD significantly affects the fertility of male and female rats and has adverse effects on reproduction.By new generation sequencing(NGS)and RT-PCR verifica-tion,we have identified differently expressed genes that are involved in mediating the effect of SD on fertility.However,the mechanisms and biological macromolecules regulated by SD are worthy of being further explored.This paper provides a brief review of SD research and then focuses on the adverse impact of SD on fertility,conducting a literature review to sort out the ideas and pro-vide references for research in this field.