Zifen Xu scite author profile

Zifen Xu

3Publications

11Citation Statements Received

266Citation Statements Given

How they've been cited

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213

265

Affiliations

Wuhan University of Science and Technology, Huazhong University of Science and Technology

Publications

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Sigma-1 Receptor in Retina: Neuroprotective Effects and Potential Mechanisms

Lei

Qin

et al. 2022

IJMS

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Retinal degenerative diseases are the major factors leading to severe visual impairment and even irreversible blindness worldwide. The therapeutic approach for retinal degenerative diseases is one extremely urgent and hot spot in science research. The sigma-1 receptor is a novel, multifunctional ligand-mediated molecular chaperone residing in endoplasmic reticulum (ER) membranes and the ER-associated mitochondrial membrane (ER-MAM); it is widely distributed in numerous organs and tissues of various species, providing protective effects on a variety of degenerative diseases. Over three decades, considerable research has manifested the neuroprotective function of sigma-1 receptor in the retina and has attempted to explore the molecular mechanism of action. In the present review, we will discuss neuroprotective effects of the sigma-1 receptor in retinal degenerative diseases, mainly in aspects of the following: the localization in different types of retinal neurons, the interactions of sigma-1 receptors with other molecules, the correlated signaling pathways, the influence of sigma-1 receptors to cellular functions, and the potential therapeutic effects on retinal degenerative diseases.

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Difference of acute dissociation and 1-day culture on the electrophysiological properties of rat dorsal root ganglion neurons

et al. 2018

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The dissociated dorsal root ganglion (DRG) neurons with or without culture were widely used for investigation of their electrophysiological properties. The culture procedures, however, may alter the properties of these neurons and the effects are not clear. In the present study, we recorded the action potentials (AP) and the voltage-gated Na, K, and Ca currents with patch clamp technique and measured the mRNA of Nav1.6-1.9 and Cav2.1-2.2 with real-time PCR technique from acutely dissociated and 1-day (1-d) cultured DRG neurons. The effects of the nerve growth factor (NGF) on the expression of Nav1.6-1.9 and Cav2.1-2.2 were evaluated. The neurons were classified as small (DRG-S), medium (DRG-M), and large (DRG-L), according to their size frequency distribution pattern. We found 1-d culture increased the AP size but reduced the excitability, and reduced the voltage-gated Na and Ca currents and their corresponding mRNA expression in all types of neurons. The lack of NGF in the culture medium may contribute to the reduced Na and Ca current, as the application of NGF recovered some of the reduced transcripts (Nav1.9, Cav2.1, and Cav2.2). 1-d culture showed neuron-type specific effects on some of the AP properties: it increased the maximum AP depolarizing rate (MDR) and hyperpolarized the resting membrane potential (RP) in DRG-M and DRG-L neurons, but slowed the maximum AP repolarizing rate (MRR) in DRG-S neurons. In conclusion, the 1-d cultured neurons had different properties with those of the acutely dissociated neurons, and lack of NGF may contribute to some of these differences.

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A Single-Cell-Type Real-Time PCR Method Based on a Modified Patch-Pipette Cell Harvesting System

et al. 2016

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Real-time PCR is a powerful tool for quantifying nucleic acid expression. Real-time PCR is conventionally performed at the tissue level to guarantee an abundance of nucleic acid for detection. The precision and reliability of this method, however, is limited by usually being composed of a mixture of different cell types. Single-cell PCR, in contrast, eliminates the purity problem of the cell source. However, use of this method is usually impeded by difficulties in cell harvesting and stringent requirements for processing of very small quantities of nucleic acids. In this study, we combined the advantages of the high purity of selected cells in single-cell PCR with the greater nucleic acid quantities and thus greater ease of tissue-level PCR. The key aspect of our method is to use a modified patch-clamp pipette to harvest several selected cells of the same type. This method is therefore especially useful for cells that can be morphologically or histologically identified such as primary sensory neurons, striated muscle fibers and cells labeled with fluorescent makers.

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Zifen Xu

Sigma-1 Receptor in Retina: Neuroprotective Effects and Potential Mechanisms

Difference of acute dissociation and 1-day culture on the electrophysiological properties of rat dorsal root ganglion neurons

A Single-Cell-Type Real-Time PCR Method Based on a Modified Patch-Pipette Cell Harvesting System

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