Lu Tai Tien scite author profile

This study sought to investigate the effects of injury-induced neuropeptide Y (NPY) on c-Fos expression in the cuneate neurons and neuropathic pain after median nerve injury. Four weeks after median nerve transection (MNT), the injured nerves stimulated at low intensity (0.1 mA) expressed significantly less NPY-like immunoreactive (NPY-LI) fibers in the cuneate nucleus (CN) than those stimulated at high intensities (1.0 mA and 10 mA). Conversely, a significantly higher number of c-Fos-LI cells were observed in the CN in rats stimulated with 0.1 mA compared to those stimulated with 1.0 mA or 10 mA. These results suggest that more NPY was released following low-intensity stimulation, and consequently fewer NPY-LI fibers and more c-Fos-LI cells were identified in the CN. Furthermore, the number of c-Fos-LI cells as well as the percentage of c-Fos-LI cuneothalamic projection neurons (CTNs) in the CN was markedly decreased after injection of NPY receptor antagonist along with retrograde tract-tracing method, indicating that NPY regulated c-Fos expression. In rats with median nerve chronic constriction injury (CCI), intracerebroventricular injection of NPY aggravated mechanical allodynia and low-intensity stimulus-evoked c-Fos expression, both of which were reversed by injection of NPY receptor antagonist. However, thermal hyperalgesia was not affected by injection of these two reagents. Taken together, these findings suggest that more NPY release, following low-intensity electrical stimulation of the injured nerve, significantly induces c-Fos expression in the CTNs, which possibly provide the ascending thalamic transmission of neuropathic pain signals.

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μ‐Opioid receptor knockout mice are insensitive to methamphetamine‐induced behavioral sensitization

Shen

Purser

Tien

et al. 2010

J of Neuroscience Research

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Repeated administration of psychostimulants to rodents can lead to behavioral sensitization. Previous studies, using nonspecific opioid receptor (OR) antagonists, revealed that ORs were involved in modulation of behavioral sensitization to methamphetamine (METH). However, the contribution of OR subtypes remains unclear. In the present study, using μ-OR knockout mice, we examined the role of μ-OR in the development of METH sensitization. Mice received daily intraperitoneal injection of drug or saline for 7 consecutive days to initiate sensitization. To express sensitization, animals received one injection of drug (the same as for initiation) or saline on day 11. Animal locomotor activity and stereotypy were monitored during the periods of initiation and expression of sensitization. Also, the concentrations of METH and its active metabolite amphetamine in the blood were measured after single and repeated administrations of METH. METH promoted significant locomotor hyperactivity at low doses and stereotyped behaviors at relative high doses (2.5 mg/kg and above). Repeated administration of METH led to the initiation and expression of behavioral sensitization in wild-type mice. METH-induced behavioral responses were attenuated in the μ-OR knockout mice. Haloperidol (a dopamine receptor antagonist) showed a more potent effect in counteracting METH-induced stereotypy in the μ-OR knockout mice. Saline did not induce behavioral sensitization in either genotype. No significant difference was observed in disposition of METH and amphetamine between the two genotypes. Our study indicated that the μ-opioid system is involved in modulating the development of behavioral sensitization to METH.

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The interaction of morphine and γ-aminobutyric acid (GABA)ergic systems in anxiolytic behavior: using μ-opioid receptor knockout mice

Sasaki

Fan

Tien

et al. 2002

Brain Research Bulletin

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Increased dopamine D2 receptor binding and enhanced apomorphine-induced locomotor activity in μ-opioid receptor knockout mice

Tien

Park

Fan

et al. 2003

Brain Research Bulletin

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Lu Tai Tien

Neuropeptide Y Modulates c-Fos Protein Expression in the Cuneate Nucleus and Contributes to Mechanical Hypersensitivity following Rat Median Nerve Injury

μ‐Opioid receptor knockout mice are insensitive to methamphetamine‐induced behavioral sensitization

The interaction of morphine and γ-aminobutyric acid (GABA)ergic systems in anxiolytic behavior: using μ-opioid receptor knockout mice

Increased dopamine D2 receptor binding and enhanced apomorphine-induced locomotor activity in μ-opioid receptor knockout mice

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