Asano Tsuhako scite author profile

Neurodegeneration has been shown to induce microglial activation and the infiltration of monocyte-derived macrophages into the CNS, resulting in the coexistence of these two populations within the same lesion, though their distinct features remain elusive. To investigate the impact of rod photoreceptor degeneration on microglial activation, we generated a toxin-mediated genetic model of rod degeneration. Rod injury induced microglial proliferation and migration toward the photoreceptors. Bone marrow transplantation revealed the invasion of monocyte-derived macrophages into the retina, with microglia and the infiltrating macrophages showing distinct distribution patterns in the retina. By comparing the gene expression profiles of the activated microglia and infiltrating macrophages, we identified microglia-specific genes, including Ak1, Ctsf, Sall1, Phlda3, and Spns2. An analysis of Sall1gfp knock-in mice showed GFP expression in the microglia of developing and mature healthy retinas. DTA injury induced the expansion of Sall1gfp(+) microglia, whereas Ly6C(+) monocyte-derived macrophages were mostly Sall1gfp(-) , supporting the idea that Sall1 is exclusively expressed in microglia within the retinal phagocyte pool. We evaluated the contribution of microglia to the phagocyte pool in rd1 mutant retinas and found that Sall1gfp(+) microglia constituted the majority of phagocytes. A Sall1 deficiency did not affect microglial colonization of the retina and the cortex, but it did change their morphology from a ramified to a more amoeboid appearance. The morphological defects observed in Sall1-deficient microglia were not rescued by the presence of wild-type non-microglial cells, suggesting that Sall1 functions cell-autonomously in microglia. Taken together, our data indicate that Sall1 regulates microglial morphology during development. GLIA 2016;64:2005-2024.

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Identification of FoxR2 as an Oncogene in Medulloblastoma

Koso

Tsuhako

Lyons

et al. 2014

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Medulloblastoma is the most common pediatric brain tumor, and in $25% of cases, it is driven by aberrant activation of the Sonic Hedgehog (SHH) pathway in granule neuron precursor (GNP) cells. In this study, we identified novel medulloblastoma driver genes through a transposon mutagenesis screen in the developing brain of wild-type and Trp53 mutant mice. Twenty-six candidates were identified along with established driver genes such as Gli1 and Crebbp. The transcription factor FoxR2, the most frequent gene identified in the screen, is overexpressed in a small subset of human medulloblastoma of the SHH subtype. Tgif2 and Alx4, 2 new putative oncogenes identified in the screen, are strongly expressed in the SHH subtype of human medulloblastoma. Mutations in these two genes were mutually exclusive with mutations in Gli1 and tended to cooccur, consistent with involvement in the SHH pathway. Notably, Foxr2, Tgif2, and Alx4 activated Gli-binding sites in cooperation with Gli1, strengthening evidence that they function in SHH signaling. In support of an oncogenic function, Foxr2 overexpression transformed NIH3T3 cells and promoted proliferation of GNPs, the latter of which was also observed for Tgif2 and Alx4. These findings offer forward genetic and functional evidence associating Foxr2, Tgif2, and Alx4 with SHH subtype medulloblastoma. Cancer Res; 74(8); 2351-61. Ó2014 AACR.

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H3K27me3 demethylase UTX regulates the differentiation of a subset of bipolar cells in the mouse retina

et al. 2020

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Di‐ and trimethylation of lysine 27 on histone 3 (H3K27me2/3) is a critical gene repression mechanism. We previously showed that down‐regulation of the H3K27 demethylase, Jumonji domain‐containing protein 3 (JMJD3), resulted in a reduced number of protein kinase C (PKC)α‐positive rod ON‐bipolar cells. In this work, we focused on the role of another H3K27 demethylase, ubiquitously transcribed tetratricopeptide repeat X chromosome (UTX), in retinal development. UTX was expressed in the retinal progenitor cells of the embryonic mouse retina and was observed in the inner nuclear layer during late retinal development and in the mature retina. The short hairpin RNA‐mediated knockdown of Utx in a mouse retinal explant led to a reduced number of PKCα‐positive rod ON‐bipolar cells. However, other retinal subtypes were unaffected by this knockdown. Using a retina‐specific knockout of Utx in mice, the in vivo effects of UTX down‐regulation were examined. Again, the number of PKCα‐positive rod ON‐bipolar cells was reduced, and no other apparent phenotypes, including retinal progenitor proliferation, apoptosis or differentiation, were observed. Finally, we examined retina‐specific Utx and Jmjd3 double‐knockout mice and found that although the number of rod ON‐bipolar cells was reduced, no additional effects from the loss of Utx and Jmjd3 were observed. Taken together, our data show that UTX contributes to retinal differentiation in a lineage‐specific manner.

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Apigenin Regulates Activation of Microglia and Counteracts Retinal Degeneration

Chumsakul

Wakayama

Tsuhako

et al. 2020

Journal of Ocular Pharmacology and Therapeutics

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Asano Tsuhako

Conditional rod photoreceptor ablation reveals Sall1 as a microglial marker and regulator of microglial morphology in the retina

Identification of FoxR2 as an Oncogene in Medulloblastoma

H3K27me3 demethylase UTX regulates the differentiation of a subset of bipolar cells in the mouse retina

Apigenin Regulates Activation of Microglia and Counteracts Retinal Degeneration

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