Zheng, Hui2012-02-142012-02-142009-12https://hdl.handle.net/11299/120643University of Minnesota Ph.D. dissertation. December 2009. Major: Pharmacology. Advisor: Dr. Ping-Yee Law. 1 computer file (PDF); xiii, 219 pages.Opioids are potent analgesics, but their application is limited by the development of tolerance (the increase in doses required to achieve the same effect) after chronic or repetitive usage. Because tolerance developed much more easily for the analgesia effect than for side effects (e.g. respiration depression), it is difficult to be overcome by simply increasing the doses of opioids. On the other hand, the identification of opioid receptors and endogenous agonists suggests the involvement of opioid pathways in the central nervous system. Thus exploring the mechanisms of tolerance development has been the focus of a vast number of laboratories for decades. Several hypotheses on tolerance development have been proposed. For example, because of the correlation between receptor internalization and tolerance development, receptor internalization has been considered as an inhibitor of tolerance. In addition, the involvement of δ-opioid receptor preproenkephalin, Ca2+/calmodulin-dependent protein kinase II, Protein Kinase C and β-arrestin2 has been suggested by knockout experiments. However, there is no universal explanation for tolerance development. The long-term goal of my studies is to understand the mechanism of tolerance development. Taking advantage of the observations that opioids have different abilities to induced tolerance and signaling events, I have proposed is that agonists induce different levels of tolerance by inducing different signaling events (agonist-selective signaling). Because of the inconsistency between the time courses of signaling cascades (usually seconds to hours) and the tolerance development (usually hours to days), It is suggested that the agonist-selective regulation on gene expression transduces the signals from the agonist-selective signaling to agonist-selective tolerance development. Hence, in my studies, the different abilities of agonists to initiate signaling events (ERK phosphorylation, receptor desensitization on intracellular calcium release) were compared. Then several determinants (receptor phosphorylation, cholesterol-rich lipid raft microdomain, receptor palmitoylation) for the agonist-selective signaling were identified. The final portion of my studies is to explore how agonist-selective regulation on gene expression (NeuroD and miR-190) results from the agonist-selective signaling and to determine whether the agonist-selective regulation on gene expression can contribute to the different levels of tolerance induced by agonists.en-USAgonist-selective signalingG protein-coupled receptoru-opioid receptorPharmacologyThesis or Dissertation