Neonatal hyperbilirubinaemia, clinically presenting as jaundice, is a ubiquitous and commonly a benign metabolic condition in newborn infants.It is a leading cause of hospitalization of neonates in the first week of life.Serum bilirubin has been considered as the most potent superoxide with the peroxyl radical scavenger activity.However, uncontrolled hyperbilirubinaemia or rapidly rising bilirubin can reach a neurotoxic concentration, potentially leading to central nervous system sequelae.Thus, the health status of jaundiced newborn infants is dependent on striking an appropriate balance between the protective effects of serum bilirubin and the risk of bilirubin neurotoxicity.In order to standardize the management of neonatal hyperbilirubinemia (jaundice), many countries have developed clinical practice management guidelines.This review sorted out and briefly interpreted the main contents of clinical management guidelines for neonatal hyperbilirubinemia drafted by the American Academy of Pediatrics and other countries, aiming to provide references of clinical diagnosis and treatment practice to domestic pediatrician.

Spinal cord injury (SCI) disrupts the structural and functional connectivity between the higher center and the spinal cord, resulting in severe motor, sensory, and autonomic dysfunction with a variety of complications. The pathophysiology of SCI is complicated and multifaceted, and thus individual treatments acting on a specific aspect or process are inadequate to elicit neuronal regeneration and functional recovery after SCI. Combinatory strategies targeting multiple aspects of SCI pathology have achieved greater beneficial effects than individual therapy alone. Although many problems and challenges remain, the encouraging outcomes that have been achieved in preclinical models offer a promising foothold for the development of novel clinical strategies to treat SCI. In this review, we characterize the mechanisms underlying axon regeneration of adult neurons and summarize recent advances in facilitating functional recovery following SCI at both the acute and chronic stages. In addition, we analyze the current status, remaining problems, and realistic challenges towards clinical translation. Finally, we consider the future of SCI treatment and provide insights into how to narrow the translational gap that currently exists between preclinical studies and clinical practice. Going forward, clinical trials should emphasize multidisciplinary conversation and cooperation to identify optimal combinatorial approaches to maximize therapeutic benefit in humans with SCI.
Humans ; Axons/pathology* ; Nerve Regeneration/physiology* ; Spinal Cord Injuries/therapy* ; Neurons/pathology* ; Recovery of Function

Anemia and blood transfusion are common clinical problems in newborns, especially premature infants.What are the definition and influencing factors of neonatal anemia? What is the difference between anemia in preterm infants and full-term infants? What are the changes of pathophysiology and their effects on tissues and cells during neonatal anemia? What are the prevention strategies and treatment methods of neonatal anemia? Is there a uniform hemoglobin threshold for neonatal transfusion of red blood cells? What are the risks of blood transfusion? In view of the above problems, this review proposed that the definition of anemia should consider the effects of gestational age, day age, intrauterine or postnatal development status(such as growth retardation), nutrition and so on. "Physiological anemia of infancy" can occur in healthy term infants; "anemia of prematurity" can not be considered as a physiologic and benign event, which is related to the low level of endogenous erythropoietin and iatrogenic blood loss.It is emphasized that neonatal anemia(especially premature infants) is preventable and can be prevented, and prevention is more important than treatment.Neonates lack a uniform hemoglobin threshold and are at risk of blood transfusion during red blood cell transfusion.

Respirasome, as a vital part of the oxidative phosphorylation system, undertakes the task of transferring electrons from the electron donors to oxygen and produces a proton concentration gradient across the inner mitochondrial membrane through the coupled translocation of protons. Copious research has been carried out on this lynchpin of respiration. From the discovery of individual respiratory complexes to the report of the high-resolution structure of mammalian respiratory supercomplex IIIIIV, scientists have gradually uncovered the mysterious veil of the electron transport chain (ETC). With the discovery of the mammalian respiratory mega complex IIIIIV, a new perspective emerges in the research field of the ETC. Behind these advances glitters the light of the revolution in both theory and technology. Here, we give a short review about how scientists 'see' the structure and the mechanism of respirasome from the macroscopic scale to the atomic scale during the past decades.

Objective To investigate the effect of endocrine gland-derived vascular endothelial growth factor(EG-VEGF) on the proliferation and apoptosis of pancreatic cancer cells and on the regulation of PI3K/AKT signaling pathway.Methords The expression of EG-VEGF and its receptor-VEGFR-2 in pancreatic cancer tissues and adjacent normal tissues was detected by PCR.The effect of EG-VEGF on proliferation of human pancreatic cancer cells was detected by MTT assay.The effect of EG-VEGF on the apoptosis of human pancreatic cancer cells was detected by flow cytometry.Western lot was used to detect the changes of related proteins expression in PI3K/AKT signaling pathway after EG-VEGF treatment.Results The expression (3.08±0.30,2.17±0.16 respectively) of EG-VEGF and VEGFR-2 in pancreatic cancer tissues was significantly higher than those (1.55±0.73,0.54±0.34 respectively) in adjacent tissues (both P＜ 0.05).MTT and flow cytometry data showed that EG-VEGF could promote the proliferation of pancreatic cancer cells and inhibit cell apoptosis.Western blot showed that EG-VEGF promoted AKT phosphorylation and activated PI3K/AKT signaling pathway.Conclusion EG-VEGF is highly expressed in pancreatic cancer tissue,and can activate PI3K/AKT signaling pathway to promote cell proliferation and inhibit cell apoptosis.

In the original publication the PDB numbers were not cited.

In the development of oxidative stress-relevant diseases, reactive oxygen species (ROS) removal obstacle or excess production results in the damage of the body tissues and organs. Recent studies have demonstrated that nuclear factor E2-related factor 2/heme oxygenase-1 (Nrf2/HO-1) axis played a significant role in anti-oxidative stress. The Nrf2/HO-1 axis counteracts oxidative stress injury by its resistance to inflammation, oxidation, mitochondrial damage and calcium influx, apoptosis, pyroptosis, ferroptosis and autophagy, which provides a theoretical basis for its therapeutic effect on various oxidative stress-relevant diseases in multiple organs (respiratory, cardiovascular, nervous, digestive, urinary and blood systems). Therefore, effective regulation of the Nrf2/HO-1 signal axis can be an important strategy for treatment of oxidative stress-relevant diseases.
Heme Oxygenase-1 ; NF-E2-Related Factor 2 ; Oxidative Stress ; Reactive Oxygen Species ; Signal Transduction

Mechanosensitive (MS) channels are extensively studied membrane protein for maintaining intracellular homeostasis through translocating solutes and ions across the membrane, but its mechanisms of channel gating and ion selectivity are largely unknown. Here, we identified the YnaI channel as the Na/K cation-selective MS channel and solved its structure at 3.8 Å by cryo-EM single-particle method. YnaI exhibits low conductance among the family of MS channels in E. coli, and shares a similar overall heptamer structure fold with previously studied MscS channels. By combining structural based mutagenesis, quantum mechanical and electrophysiological characterizations, we revealed that ion selective filter formed by seven hydrophobic methionine (YnaI) in the transmembrane pore determined ion selectivity, and both ion selectivity and gating of YnaI channel were affected by accompanying anions in solution. Further quantum simulation and functional validation support that the distinct binding energies with various anions to YnaI facilitate Na/K pass through, which was defined as binding-block mechanism. Our structural and functional studies provided a new perspective for understanding the mechanism of how MS channels select ions driven by mechanical force.
Cryoelectron Microscopy ; Escherichia coli Proteins ; chemistry ; isolation & purification ; metabolism ; ultrastructure ; Ion Channels ; chemistry ; isolation & purification ; metabolism ; ultrastructure ; Mechanotransduction, Cellular ; Models, Molecular ; Quantum Theory

Animals ; Cell Respiration ; Electron Transport Complex III ; metabolism ; Humans ; Iron-Sulfur Proteins ; chemistry ; metabolism ; Mitochondria ; metabolism ; Peptide Fragments ; chemistry ; metabolism ; Protein Multimerization ; Protein Structure, Quaternary ; Protein Subunits ; chemistry