Ming Chak Lee scite author profile

Astrocytes have long been perceived only as structural and supporting cells within the central nervous system (CNS). However, the discovery that these glial cells may potentially express receptors capable of responding to endogenous neurotransmitters has resulted in the need to reassess astrocytic physiology. The aim of the current study was to characterise the expression of NMDA receptors (NMDARs) in primary human astrocytes, and investigate their response to physiological and excitotoxic concentrations of the known endogenous NMDAR agonists, glutamate and quinolinic acid (QUIN). Primary cultures of human astrocytes were used to examine expression of these receptors at the mRNA level using RT-PCR and qPCR, and at the protein level using immunocytochemistry. The functionality role of the receptors was assessed using intracellular calcium influx experiments and measuring extracellular lactate dehydrogenase (LDH) activity in primary cultures of human astrocytes treated with glutamate and QUIN. We found that all seven currently known NMDAR subunits (NR1, NR2A, NR2B, NR2C, NR2D, NR3A and NR3B) are expressed in astrocytes, but at different levels. Calcium influx studies revealed that both glutamate and QUIN could activate astrocytic NMDARs, which stimulates Ca2+ influx into the cell and can result in dysfunction and death of astrocytes. Our data also show that the NMDAR ion channel blockers, MK801, and memantine can attenuate glutamate and QUIN mediated cell excitotoxicity. This suggests that the mechanism of glutamate and QUIN gliotoxicity is at least partially mediated by excessive stimulation of NMDARs. The present study is the first to provide definitive evidence for the existence of functional NMDAR expression in human primary astrocytes. This discovery has significant implications for redefining the cellular interaction between glia and neurons in both physiological processes and pathological conditions.

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A Wide-Load-Range Constant-Charge-Auto-Hopping Control Single-Inductor-Dual-Output Boost Regulator With Minimized Cross-Regulation

Jing

Mok

Lee

2011

IEEE J. Solid-State Circuits

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A 14V-output adaptive-off-time boost converter with quasi-fixed-frequency in full loading range

Lee

Jing

Mok

2011

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A monolithic quasi-fixed-frequency DC-DC boost converter with a modified-adaptive-off-time (MAOF) control is presented. To achieve a quasi-fixed-frequency in whole loading range, the new MAOF control is able to overcome the frequency variation problems naturally exist in traditional adaptive-offtime control in both continuous-and discontinuous-conductionmode (CCM and DCM) operations. The MAOF control boost converter was implemented with a 0.35μm High Voltage (HV) CMOS process. With 3V -4.2V input voltage, 10V -14V output voltage and 30mA -300mA load current range, simulated results show that the switching frequency keeps constant at 960kHz to within ±5% across the whole operation range.

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Ming Chak Lee

Characterisation of the Expression of NMDA Receptors in Human Astrocytes

A Wide-Load-Range Constant-Charge-Auto-Hopping Control Single-Inductor-Dual-Output Boost Regulator With Minimized Cross-Regulation

A 14V-output adaptive-off-time boost converter with quasi-fixed-frequency in full loading range

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