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Background
The neuronal ceroid lipofuscinoses (CLN diseases) are fatal lysosomal storage diseases causing neurodegeneration in the CNS. We have previously shown that neuroinflammation comprising innate and adaptive immune reactions drives axonal damage and neuron loss in the CNS of palmitoyl protein thioesterase 1-deficient (Ppt1\(^{-/-}\)) mice, a model of the infantile form of the diseases (CLN1). Therefore, we here explore whether pharmacological targeting of innate immune cells modifies disease outcome in CLN1 mice.
Methods
We applied treatment with PLX3397 (150 ppm in the chow), a potent inhibitor of the colony stimulating factor-1 receptor (CSF-1R) to target innate immune cells in CLN1 mice. Experimental long-term treatment was non-invasively monitored by longitudinal optical coherence tomography and rotarod analysis, as well as analysis of visual acuity, myoclonic jerks, and survival. Treatment effects regarding neuroinflammation, neural damage, and neurodegeneration were subsequently analyzed by histology and immunohistochemistry.
Results
We show that PLX3397 treatment attenuates neuroinflammation in CLN1 mice by depleting pro-inflammatory microglia/macrophages. This leads to a reduction of T lymphocyte recruitment, an amelioration of axon damage and neuron loss in the retinotectal system, as well as reduced thinning of the inner retina and total brain atrophy. Accordingly, long-term treatment with the inhibitor also ameliorates clinical outcomes in CLN1 mice, such as impaired motor coordination, visual acuity, and myoclonic jerks. However, we detected a sex- and region-biased efficacy of CSF-1R inhibition, with male microglia/macrophages showing higher responsiveness toward depletion, especially in the gray matter of the CNS. This results in a better treatment outcome in male Ppt1\(^{-/-}\) mice regarding some histopathological and clinical readouts and reflects heterogeneity of innate immune reactions in the diseased CNS.
Conclusions
Our results demonstrate a detrimental impact of innate immune reactions in the CNS of CLN1 mice. These findings provide insights into CLN pathogenesis and may guide in the design of immunomodulatory treatment strategies.
Mikrogliazellen fungieren als Makrophagen im ZNS, wo sie verschiedene Abwehrfunktionen gegen Mikroorganismen übernehmen, Zellreste beseitigen und eine wichtige Rolle bei Autoimmunerkrankungen des ZNS spielen. Mikrogliazellen exprimieren unter anderem eine NO-Synthase, die durch Zytokine induzierbar ist. Da NO für Neurone und Oligodendrozyten toxisch sein kann, waren wir daran interessiert, Substanzen zu identifizieren, die eine hemmende Wirkung auf die zytokin-induzierbare NO-Synthase in Makrophagen und Mikrogliazellen haben. Unter den getesteten Zytokinen, Wachstumsfaktoren, Neuropeptiden, Chemokinen und Tyrosinkinase-Hemmern war lediglich der Tyrosinkinaseinhibitor Methyl-2,5-Dihydroxycinnamat als NO-Synthase-Hemmstoff erfolgreich. Da die NO-Produktion eine Rolle in der Pathogenese der Experimentellen Autoimmunen Enzephalomyelitis (EAE) und der Experimentellen Autoimmunen Neuritis (EAN) spielt, war auch die Möglichkeit eines therapeutischen Einsatzes des NO-Synthase-Inhibitors von Interesse. Dieser scheint jedoch im Falle von Methyl-2,5-Dihydroxycinnamat aufgrund seiner Toxizität in höherer Konzentration und des daraus resultierenden engen Therapeutischen Dosisfensters sehr eingeschränkt.