The past,present,and future of in vivo-implant-able recording microelectrodes:the neural interfaces / 中国药理学与毒理学杂志

Neural recording electrodes enable the acquisition and collection of electrical signals from neu-rons,and these recorded neural electrical signals are an important means of understanding neuronal activity.As a major component of the brain-machine interface,neu-ral recording electrodes serve as a bridge between the nervous system and external devices.The extracted information can be used to understand the state of the brain and acts as a feedback signal to regulate external devices,thus providing important information for the clini-cal treatment of neurological diseases.Moreover,the electrodes can be used as a vehicle for drug injection to directly treat diseases.Since the time that Strumwas-ser used microwires to achieve long-term recordings of neural activity in hibernating squirrels,implantable elec-trode technology has gradually improved over three gen-erations of development,and progress has been made in improving the biocompatibility,mechanical performance(size,shape,density,etc.),and signal-to-noise ratio.Implantable neural recording electrodes can acquire sig-nals from cortical and deep neural clusters,with the advantages of high signal-to-noise ratio,information con-tent,and spatial/temporal resolution.However,there is still a need to improve the structure and performance of these electrodes;for example,their high invasiveness and lack of biocompatibility pose technical difficulties in the process of translation to the clinic.This paper reviews the basic requirements for electrodes,main recording methods and signal types,common types of implant-able neural recording electrodes,and their challenges and future development directions.With the continuous development of electrode materials,equipment,systems,and neurotechnology,it should be possible to apply neu-ral recording electrodes in clinical practice,to promote safe and efficient treatment of human diseases.

Isolation of mononuclear cells from CNS tissue using Percoll gradients centrifugation / 中国药理学通报

Aim To establish a rapid method to efficiently iso-late mononuclear cells from central nervous system ( CNS) tis-sues of mice that can be effectively utilized for identification of various immune cell populations in a single sample by flow cy-tometry. Methods For defining the feasibility and practicality of the method, wild-type C57BL/6 mice and two mouse models of CNS disease including EAE mice and APP/PS1 mice were used in this study. After the collection and homogenization of the brain and spinal cord tissues respectively, the mononuclear cells were isolated by spinning the 70% -30% Percoll gradients. Cell activities were detected by trypan blue staining, and the im-mune population that infiltrated CNS was identified by flow cy-tometry. Results The results of trypan blue staining showed that the survival rate of the isolated cells was above 90% in all groups. Flow cytometry analysis showed that the relative num- bers of lymphocytes infiltrating CNS of EAE and AD mice in-creased significantly compared with wild-type C57BL/6 mice. In addition, the relative numbers of Th1 and Th17 cell subsets me-diating the inflammatory response also increased significantly, while the decreased regulatory T cells frequency was observed in the two mouse models of CNS disease. Conclusions The cells isolated by the 70% ~30% Percoll gradients centrifugation can be effectively utilized for the identification of various immune cell populations in a single sample by flow cytometry. The meth-od described in this article is simple and rapid in operation and with high survival rate and activity of the cells, which can be ap-plied to the study of the mononuclear cells in CNS.

Establishment of Integration-Free Human Induced Pluripotent Stem Cells from A Patient with Primary Myelofibrosis / 中国实验血液学杂志

<p><b>OBJECTIVE</b>To establish the primary myelofibrosis (PMF)-induced pluripotent stem cell line (iPSC) by means of iPSC techinique so as to provide a experimental model for studying the blood disease mechanisms.</p><p><b>METHODS</b>Induced pluripotent stem cells were generated from mononuclear cells isolated from a PMF patient with JAK2(V617F) mutation by using episomal vectors.</p><p><b>RESULTS</b>PMF-derived iPSC was established from the patient with JAK2(V617F) gene mutation. The PMF-iPSC could be stably passaged, highly expressed pluripotent genes as human embryonic stem (ES) cells, and were able to form teratoma in NOD/SCID mice in vivo. H & E staining of the teratoma showed the presence of tissue type derived from all three embryonic germ layers. Sanger sequencing confirmed that PMF-derived iPSC carried different allele burdens of JAK2(V617F) gene mutation.</p><p><b>CONCLUSION</b>The interation-free iPSC from primary myelofibrosis patient in vitro has been established. This PMF-derived iPSC line provides a valuable tool for studying the pathogenesis, screening of chimical drugs and realizing the standard therapy of PMF.</p>

Effect of RAGE and its ligands on CD4 + T cells / 中国药理学通报

RAGE (receptor for advanced glycation end products) is a multiligand receptor on the cell surface.Ligand-RAGE inter-actions activate several signal transduction pathways that propa-gate cellular oxidative stress and inflammatory response.RAGE expressed on the CD4 + T cells has been identified as a central transduction receptor which affects the activation,proliferation, migration and differentiation of the cells.In addition,blockade of RAGE suppressed the development of multiple immune-related disorders mediated by CD4 + T cells.These studies highlight the importance of RAGE and its ligands for CD4 + T cells.This arti-cle briefly reviews the role of RAGE and its ligands on the prolif-eration,migration and differentiation of CD4 + T cells and sum-marizes the related research progress.