AIM: Opioids are the most prescribed analgesics for moderate and severe pain management; however, chronic use impairs host innate immune response and increases susceptibility to infection. Recently, autophagy has been shown to be an innate defence mechanism against bacterial infection. The effect of autophagy-induced bacterial clearance following morphine treatment has not been previously investigated. METHODS: Autophagosomes were visualized by confocal microscopy following GFP-LC3 transfection and also by transmission electron microscopy. The relative protein levels were analysed by Western blot. Macrophages were transfected with GFP-mcherry-LC3 simultaneously to monitor autolysosome formation and subsequent events that lead to degradation. RESULTS: Morphine treatment potentiated LPS-induced vesicular translocation of GFP-LC3 with a concurrent increase in LC3-II levels. In addition, morphine upregulated LPS-induced Beclin1 level, but downregulated Bcl-2 level. We further show that p38 MAP kinase signalling is required for autophagy activation. In contrast, morphine inhibited LPS-induced autophagosome maturation and autophagolysosomal fusion as indicated by the failure to recruit LAMP1 into autophagosome and reduced degradation of SQSTM1/p62 protein level. Morphine modulation of LPS-induced autophagosome maturation visualized using co-localization of GFP-mcherry-LC3 was TLR4 independent, but mediated through μ opioid receptor signalling. Correspondingly, morphine and LPS co-treatment significantly increased Streptococcus pneumoniae load, when compared with LPS treatment alone. CONCLUSION: These observations imply that although morphine treatment facilitates LPS-induced autophagy, it inhibits autophagolysosomal fusion leading to decreased bacterial clearance and increased bacterial load. These observations support the increased susceptibility to infection and the prevalence of persistent infection in the drug abuse population.
AIM: Opioids are the most prescribed analgesics for moderate and severe pain management; however, chronic use impairs host innate immune response and increases susceptibility to infection. Recently, autophagy has been shown to be an innate defence mechanism against bacterial infection. The effect of autophagy-induced bacterial clearance following morphine treatment has not been previously investigated. METHODS: Autophagosomes were visualized by confocal microscopy following GFP-LC3 transfection and also by transmission electron microscopy. The relative protein levels were analysed by Western blot. Macrophages were transfected with GFP-mcherry-LC3 simultaneously to monitor autolysosome formation and subsequent events that lead to degradation. RESULTS:Morphine treatment potentiated LPS-induced vesicular translocation of GFP-LC3 with a concurrent increase in LC3-II levels. In addition, morphine upregulated LPS-induced Beclin1 level, but downregulated Bcl-2 level. We further show that p38 MAP kinase signalling is required for autophagy activation. In contrast, morphine inhibited LPS-induced autophagosome maturation and autophagolysosomal fusion as indicated by the failure to recruit LAMP1 into autophagosome and reduced degradation of SQSTM1/p62 protein level. Morphine modulation of LPS-induced autophagosome maturation visualized using co-localization of GFP-mcherry-LC3 was TLR4 independent, but mediated through μ opioid receptor signalling. Correspondingly, morphine and LPS co-treatment significantly increased Streptococcus pneumoniae load, when compared with LPS treatment alone. CONCLUSION: These observations imply that although morphine treatment facilitates LPS-induced autophagy, it inhibits autophagolysosomal fusion leading to decreased bacterial clearance and increased bacterial load. These observations support the increased susceptibility to infection and the prevalence of persistent infection in the drug abuse population.
Authors: Hesham M Al-Younes; Munir A Al-Zeer; Hany Khalil; Joscha Gussmann; Alexander Karlas; Nikolaus Machuy; Volker Brinkmann; Peter R Braun; Thomas F Meyer Journal: Autophagy Date: 2011-08-01 Impact factor: 16.016
Authors: Kerui Fan; Ling Lin; Qing Ai; Jingyuan Wan; Jie Dai; Gang Liu; Li Tang; Yongqiang Yang; Pu Ge; Rong Jiang; Li Zhang Journal: Front Immunol Date: 2018-06-25 Impact factor: 7.561