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In der vorliegenden Arbeit wurde der Einfluss eines Mangels des antiinflammatorischen Zytokins Interleukin(IL)-4 am Tiermodell einer experimentellen Mononeuropathie (engl. chronic constriction injury, CCI) untersucht. Zentrale Fragestellung der Studie war, ob IL-4 knockout(ko)-Mäuse im Vergleich zu Wildtyp(wt)-Mäusen mit einem gesteigerten Schmerzverhalten sowie einer veränderten Zytokinantwort und Opioidrezeptor-Expression nach Anwendung eines neuropathischen Schmerzmodells (CCI) reagieren. In mehreren Tierstudien war zuvor eine antiinflammatorische und analgetische Wirkung von IL-4 belegt worden (Vale et al. 2003; Hao et al. 2006) und in klinischen Studien war ein verminderter IL-4-Spiegel bei Patienten mit verschiedenen neuropathischen Schmerzsyndromen mit einer gesteigerten Schmerzempfindung verbunden (Üçeyler et al. 2006; Üçeyler et al. 2007b). Da IL-4 die Transkription von Opioidrezeptoren induziert (Kraus et al. 2001; Börner et al. 2004), wurde zudem das Ansprechen von IL-4 ko-Mäusen auf Morphin und die Genexpression zentraler Opioidrezeptoren untersucht. Vor sowie bis vier Wochen nach Durchführung einer CCI wurden IL-4 ko- sowie wt- Mäuse hinsichtlich ihrer Empfindlichkeit auf mechanische und thermische Stimuli analysiert. Zum Zeitpunkt des Schmerzmaximums nach CCI (Tag 7 bis 9) wurde zudem das Ansprechen beider Genotypen auf Morphin untersucht. Die Genexpression pro- (IL-1 beta, TNF) und antiinflammatorischer Zytokine (IL-10, IL- 13) im peripheren (N. ischiadicus) und zentralen Nervensystem (lumbales und zervikales Rückenmark, Pons, Thalamus, Hypothalamus, Striatum, Kortex) sowie die Genexpression zentraler Opioidrezeptoren (mü-OR, delta-OR, kappa-OR) wurde bei beiden Genotypen vor sowie vier Wochen nach CCI mittels Real-Time-PCR bestimmt. Unbehandelte IL-4 ko-Mäuse zeigten im Vergleich zu wt-Mäusen bereits vor Durchführung einer CCI eine mechanische Überempfindlichkeit (Hyperalgesie), was möglicherweise durch die bei IL-4-Mangel fehlenden zentralen inhibitorischen Mechanismen bedingt ist. Nach CCI entwickelten sowohl IL-4 ko- als auch wt-Mäuse eine gleich ausgeprägte mechanische und thermische Hyperalgesie. Die Tatsache, dass die mechanische Überempfindlichkeit bei IL-4 ko-Mäusen nach Nervenläsion nicht überproportional steigt, kann Ausdruck der nachgewiesenen kompensatorisch stärker ausgeprägten Genexpression proinflammatorischer, aber insbesondere auch antiinflammatorischer Zytokine in diesem Genotyp sein. Nur bei IL-4 ko-Mäusen war vier Wochen nach CCI die Genexpression der anti- inflammatorischen Zytokine im N. ischiadicus (IL-10) und ipsilateralen Rückenmark (IL-10, IL-13), jedoch auch die der proinflammatorischen Zytokine im ipsilateralen Rückenmark (TNF, IL-1 beta) erhöht. Nach CCI sprachen IL-4 ko-Mäuse schneller auf Morphingabe an als wt-Mäuse, was durch den bei diesem Genotyp stärker ausgeprägten Anstieg der Genexpression der Opioidrezeptortypen delta-OR und kappa-OR im kontralateralen Thalamus bedingt sein kann.
Dementia, or any form of degenerative cognitive decline, is one of the major problems in present, and even more will be in future medicine. With Alzheimer's disease (AD) being the most prevalent, Vascular Dementia is the second most entity of dementing processes in the elderly. As diagnostic criteria are still imprecise and in many cases do not embrace early stages of the disease, recent studies have proposed more detailed classifications of the newly created condition Vascular Cognitive Impairment (VCI). Of all conditions subsumed under this term, subcortical small-vessel alterations are the most common cause for cognitive decline. The diagnosis of dementia / cognitive impairment is presently often made in late stages of the disease, when therapeutical options are poor. Thus, early detection of changes of the subcortical small vessels is desirable, when there is still time to identify and aggressively treat risk factors and underlying conditions like diabetes, hyper- or hypotension, and hyperlipidemia. This study aimed to evaluate whether cTT correlates to cognitive dysfunction, i.e. if cTT is fit as an early diagnostic tool for VCI. The study cohort included 38 patients from the Neurological Clinic of the Würzburg University hospital admitted due to diagnoses other than dementia or stroke. As a result of this study it turned out that cTT is certainly capable of fulfilling the task to easily and effectively detect and evaluate possible microvascular lesions of the brain with respect to the actual clinical relevance for the patient. When compared to the other proposed diagnostic tools, neuropsychological testing and MRI, the advantages of cTT are obvious: its measurement is a low-cost and quick procedure which would spare both patients and examiners a long neuropsychological exam or complement it. cTT is safe to assess as the only possible risks derive from the use of the contrast agent, which are rare and easily manageable. It has also proven to be more accurate in showing the extent of cognitive impairment than MRI. Finally, it is widely available. The only prerequisite is an ultrasound machine capable of transcranial color-coded duplex sonography. No cost-intensive procedures like MRI are needed. So, with neuropsychological testing remaining the gold standard, cTT here proved to be a reliable alternative which is more time- and cost-effective than MRI.
Previous studies by our group revealed that chronic low grade inflammation implicating phagocytosing macrophages is a highly relevant mechanism in the pathogenesis of Charcot-Marie-Tooth disease. The lack of CSF-1, the primary regulator of macrophage function and survival, led to a robust and persistent amelioration of the phenotype in two authentic mouse models of CMT. Moreover, a close contact between CSF-1 producing fibroblasts and endoneurial macrophages carrying CSF-1R has been confirmed in nerve biopsies of CMT patients, further supporting the clinical significance of this pathway. In the current study we treated 3 distinct mouse models of CMT1: the PMP22tg mice as a model for CMT1A, the P0+/- mice as a model for CMT1B and the Cx32def mice as a model for CMT1X, with a CSF-1R specific kinase (c-FMS) inhibitor (800-1200 mg PLX5622/ kg chow) according to different treatment regimes mimicking an ideal early onset treatment, a late onset treatment and the withdrawal of the drug. Using the above mentioned doses of PLX5622, we documented a dramatic decrease in macrophage numbers in the PNS of all 3 myelin mutants, except for the quadriceps nerve of Cx32def mice. Fibroblast numbers remained unchanged in treated animals. Surprisingly, in spite of the decrease in the number of detrimental macrophages we could not detect an unequivocal phenotypic improvement. CMAP amplitudes were reduced in both wild type and myelin mutant mice treated with CSF-1R inhibitor in comparison to untreated littermates. Corresponding to the electrophysiological findings, the axon number and the percentage of large diameter axons were reduced in the quadriceps nerve of treated P0+/- and Cx32def mice. By contrast we observed a higher number of fully myelinated axons, in parallel with a decrease in the percentage of demyelinated (and hypermyelinated in PMP22tg mice) fibers in the ventral roots of P0+/- mice treated with CSF-1R inhibitor from 3 months up to 6 months of age and PMP22tg animals treated from 9 months up to 15 months of age. Our results indicate that CSF-1R inhibitor has the potential to improve the demyelinating phenotype of at least two models of CMT1. Nevertheless, further studies are necessary (for example with lower doses of the inhibitor) to minimize or even eliminate the putative neurotoxic effect we observed with high dose treatment conditions.