Yutaka Shima scite author profile

PML, a nuclear protein, interacts with several transcription factors and their coactivators, such as HIPK2 and p300, resulting in the activation of transcription. Although PML is thought to achieve transcription activation by stabilizing the transcription factor complex, little is known about the underlying molecular mechanism. To clarify the role of PML in transcription regulation, we purified the PML complex and identified Fbxo3 (Fbx3), Skp1, and Cullin1 as novel components of this complex. Fbx3 formed SCF Fbx3 ubiquitin ligase and promoted the degradation of HIPK2 and p300 by the ubiquitin-proteasome pathway. PML inhibited this degradation through a mechanism that unexpectedly did not involve inhibition of the ubiquitination of HIPK2. PML, Fbx3, and HIPK2 synergistically activated p53-induced transcription. Our findings suggest that PML stabilizes the transcription factor complex by protecting HIPK2 and p300 from SCF Fbx3 -induced degradation until transcription is completed. In contrast, the leukemia-associated fusion PML-RAR␣ induced the degradation of HIPK2. We discuss the roles of PML and PML-retinoic acid receptor ␣, as well as those of HIPK2 and p300 ubiquitination, in transcriptional regulation and leukemogenesis.

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Mutations of the HIPK2 gene in acute myeloid leukemia and myelodysplastic syndrome impair AML1- and p53-mediated transcription

Xl¹,

Arai²,

Harada

et al. 2007

Oncogene

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The AML1 transcription factor complex is the most frequent target of leukemia-associated chromosomal translocations. Homeodomain-interacting protein kinase 2 (HIPK2) is a part of the AML1 complex and activates AML1-mediated transcription. However, chromosomal translocations and mutations of HIPK2 have not been reported. In the current study, we screened mutations of the HIPK2 gene in 50 cases of acute myeloid leukemia (AML) and in 80 cases of myelodysplastic syndrome (MDS). Results indicated there were two missense mutations (R868W and N958I) in the speckle-retention signal (SRS) domain of HIPK2. Subcellular localization analyses indicated that the two mutants were largely localized to nuclear regions with conical or ring shapes, and were somewhat diffused in the nucleus, in contrast to the wild type, which were mainly localized in nuclear speckles. The mutations impaired the overlapping localization of AML1 and HIPK2. The mutants showed decreased activities and a dominant-negative function over wild-type protein in AML1-and p53-dependent transcription. These findings suggest that dysfunction of HIPK2 may play a role in the pathogenesis of leukemia.

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Gene Expression Profiles of the Cochlea and Vestibular Endorgans

Nishio

Hattori

Moteki

et al. 2015

Ann Otol Rhinol Laryngol

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Objectives: We sought to elucidate the gene expression profiles of the causative genes as well as the localization of the encoded proteins involved in hereditary hearing loss. Methods: Relevant articles (as of September 2014) were searched in PubMed databases, and the gene symbols of the genes reported to be associated with deafness were located on the Hereditary Hearing Loss Homepage using localization, expression, and distribution as keywords. Results: Our review of the literature allowed us to systematize the gene expression profiles for genetic deafness in the inner ear, clarifying the unique functions and specific expression patterns of these genes in the cochlea and vestibular endorgans. Conclusions:The coordinated actions of various encoded molecules are essential for the normal development and maintenance of auditory and vestibular function.

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An in vivo genome-wide CRISPR screen identifies the RNA-binding protein Staufen2 as a key regulator of myeloid leukemia

et al. 2020

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Yutaka Shima

A Multiscale Map of the Stem Cell State in Pancreatic Adenocarcinoma

PML Activates Transcription by Protecting HIPK2 and p300 from SCF^Fbx3-Mediated Degradation

Mutations of the HIPK2 gene in acute myeloid leukemia and myelodysplastic syndrome impair AML1- and p53-mediated transcription

Gene Expression Profiles of the Cochlea and Vestibular Endorgans

An in vivo genome-wide CRISPR screen identifies the RNA-binding protein Staufen2 as a key regulator of myeloid leukemia

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Yutaka Shima

A Multiscale Map of the Stem Cell State in Pancreatic Adenocarcinoma

PML Activates Transcription by Protecting HIPK2 and p300 from SCFFbx3-Mediated Degradation

Mutations of the HIPK2 gene in acute myeloid leukemia and myelodysplastic syndrome impair AML1- and p53-mediated transcription

Gene Expression Profiles of the Cochlea and Vestibular Endorgans

An in vivo genome-wide CRISPR screen identifies the RNA-binding protein Staufen2 as a key regulator of myeloid leukemia

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Resources

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PML Activates Transcription by Protecting HIPK2 and p300 from SCF^Fbx3-Mediated Degradation