Dysregulated Sonic hedgehog signaling and medulloblastoma consequent to IFN-α–stimulated STAT2-independent production of IFN-γ in the brain
Jianping Wang, … , Christian Schindler, Iain L. Campbell
Jianping Wang, … , Christian Schindler, Iain L. Campbell
Published August 15, 2003
Citation Information: J Clin Invest. 2003;112(4):535-543. https://doi.org/10.1172/JCI18637.
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Article Neuroscience

Dysregulated Sonic hedgehog signaling and medulloblastoma consequent to IFN-α–stimulated STAT2-independent production of IFN-γ in the brain

Abstract

The type I IFNs (IFN-α and IFN-β), which are crucial in antiviral defense and immune regulation, signal via the Janus kinase/signal transducer and activator of transcription (JAK/STAT) pathway with activation of STAT1 and STAT2. Here, the function of STAT2 was studied in transgenic mice (termed GIFN/STAT2–/–) with CNS production of IFN-α. Surprisingly, GIFN/STAT2–/–, but not GIFN/STAT1-null, transgenic mice, with CNS production of IFN-α, died prematurely with medulloblastoma. An immune response also induced in the brain of the GIFN/STAT2–/– mice was associated with IFN-γ gene expression by CD3+ T cells and the activation of the STAT1, STAT3, STAT4, and STAT5 molecules. Expression of the Sonic hedgehog (Shh) and the downstream transcriptional factor Gli-1 genes, implicated in the pathogenesis of medulloblastoma, was found to be significantly increased and cotranscribed in cerebellar granule neurons of the GIFN/STAT2–/– mice. IFN-γ, but not IFN-α, induced STAT1-dependent expression of the Shh gene in cultured cerebellar granule neurons. Thus, there is an unexpected and extraordinarily adverse biological potency of IFN-α in the CNS when the primary signal transduction molecule STAT2 is absent. Moreover, a hitherto unknown role is indicated for the immune system in the pathogenesis of developmental disorders and tumorigenesis of the CNS via dysregulated Shh signaling mediated by IFN-γ.

Authors

Jianping Wang, Ngan Pham-Mitchell, Christian Schindler, Iain L. Campbell

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Figure 3

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Immune pathology in the cerebellum of GIFN/STAT2–/– mice and induction o...
Immune pathology in the cerebellum of GIFN/STAT2–/– mice and induction of IFN-γ gene expression and activation of STAT4 in splenic leukocytes. (a) Analysis and quantitation of IFN gene expression by RPA, performed as described above for Figure 2b. **P < 0.01 in GIFN/STAT2–/– (n = 4) compared with GIFN mice and other genotypes (n = 4–5). (bd) Frozen brain sections (10 μm) from 3-week-old GIFN (b) or GIFN/STAT2–/– (c and d) mice immunostained for CD45 (b and c; arrows) and CD4 (d; arrows). Original magnification: ×400. (e) Dual in situ hybridization of IFN-γ RNA transcripts and immunohistochemical localization of CD3 (arrows) in the cerebellum of 3-week-old GIFN/STAT2–/– mice. CD3+ cells not expressing detectable IFN-γ RNA are also shown (arrowheads). Original magnification: ×600. (f) IFN-γ gene expression by splenic leukocytes. Freshly isolated splenic leukocytes from the spleens of adult mice were treated with IFN-α (500 U/ml) for 2 hours at 37°C. Total RNA was then prepared and analyzed by RPA. (g) Immunoblot analysis for total and phosphotyrosine-STAT4 in total-protein lysates from IFN-α–treated (500 U/ml for 30 minutes at 37°C) splenic leukocytes prepared from mice of the different genotypes shown. Both f and g show representative results from three independent experiments.