In order to explore a novel method for the treatment of drug abuse, we evaluated the effect of chronic deep brain stimulation (DBS) of the rat nucleus accumbens (NAc) on morphine reinforcement, using a DBS apparatus and an implant method we developed. Thirty-two adult rats weighing 240-260 g were divided into three groups, which included a DBS group (n = 10, administration of surgery, morphine and DBS), a sham DBS group (n = 12, administration of surgery and morphine) and a control group (n = 10, administration of physiological saline). The DBS electrode was stereotaxically implanted into the core of unilateral NAc and connected to an implantable pulse generator. Then, they were fixed to the rat skull. One week later, the rats in each group were intraperitoneally injected with morphine at an increasing dose (10-60 mg/kg) once daily. The rats in the DBS group were administered a 130-Hz high-frequency stimulation (HFS) once daily. A 900-second conditioned place preference (CPP) paradigm was used for determining the effect of electrical stimulation on morphine reinforcement in rats. The data showed that 7-10 days later, the preference score of the DBS group was significantly lower than that of the sham DBS group. The results suggest that chronic HFS of the rat NAc can block CPP induced by morphine and attenuate morphine reinforcement.
BackgroundThe inhalation of allergens by allergic asthmatics results in the early asthmatic response (EAR), which is characterized by acute airway obstruction beginning within a few minutes. The EAR is the earliest indicator of the pathological progression of allergic asthma. Because the molecular mechanism underlying the EAR is not fully defined, this study will contribute to a better understanding of asthma.MethodsIn order to gain insight into the molecular basis of the EAR, we examined changes in protein expression patterns in the lung tissue of asthmatic rats during the EAR using 2-DE/MS-based proteomic techniques. Bioinformatic analysis of the proteomic data was then performed using PPI Spider and KEGG Spider to investigate the underlying molecular mechanism.ResultsIn total, 44 differentially expressed protein spots were detected in the 2-DE gels. Of these 44 protein spots, 42 corresponded to 36 unique proteins successfully identified using mass spectrometry. During subsequent bioinformatic analysis, the gene ontology classification, the protein-protein interaction networking and the biological pathway exploration demonstrated that the identified proteins were mainly involved in glycolysis, calcium binding and mitochondrial activity. Using western blot and semi-quantitative RT-PCR, we confirmed the changes in expression of five selected proteins, which further supports our proteomic and bioinformatic analyses.ConclusionsOur results reveal that the allergen-induced EAR in asthmatic rats is associated with glycolysis, calcium binding and mitochondrial activity, which could establish a functional network in which calcium binding may play a central role in promoting the progression of asthma.
Although the beneficial effects of acupuncture in asthma treatment have been well documented, little is known regarding the biological basis of this treatment. Changes in the lung proteome of acupuncture-treated rats with asthma onset were comparatively analyzed using a two-dimensional gel electrophoresis (2DE) and mass-spectrometry- (MS-) based proteomic approach. Acupuncture on specific acupuncture points appeared to improve respiratory function and reduce the total number of leukocytes and eosinophils in bronchoalveolar lavage fluid in OVA-induced asthma onset. Image analysis of 2DE gels revealed 32 differentially expressed acupuncture-specific protein spots in asthma onset; 30 of which were successfully identified as 28 unique proteins using LC-MS/MS. Bioinformatic analyses indicated that these altered proteins are most likely involved in inflammation-related biological functions, and the functional associations of these proteins result in an inflammation signaling pathway. Acupuncture regulates the pathway at different levels by regulating several key nodal proteins, including downregulating of proinflammatory proteins (e.g., S100A8, RAGE, and S100A11) and upregulating of anti-inflammatory proteins (e.g., CC10, ANXA5, and sRAGE). These deregulated inflammation-related proteins may mediate, at least in part, the antiasthmatic effect of acupuncture. Further functional investigation of these acupuncture-specific effector proteins could identify new drug candidates for the prophylaxis and treatment of asthma.
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