KDM8, a H3K36me2 histone demethylase that acts in the cyclin A1 coding region to regulate cancer cell proliferation

Hsia, Datsun A.; Tepper, Clifford G.; Pochampalli, Mamata R.; Hsia, Elaine Y. C.; Izumiya, Chie; Huerta, Steve B.; Wright, M.; Chen, Hong Wu; Kung, Hsing Jien; Izumiya, Yoshihiro

doi:10.1073/pnas.1000401107

Cited by 170 publications

(185 citation statements)

References 25 publications

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“…Warburg effect | aerobic glycolysis | breast cancer | cancer metabolism J MJD5 is a Jumonji C domain-containing dioxygenase shown to be involved in lysine demethylation (1)(2)(3) and hydroxylation functions (4). Although the exact cellular substrates and functions of JMJD5 remain unclear, JMJD5 was shown to positively regulate cyclin A1 but negatively regulate p53 and p21 (1)(2)(3).…”

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confidence: 99%

“…Although the exact cellular substrates and functions of JMJD5 remain unclear, JMJD5 was shown to positively regulate cyclin A1 but negatively regulate p53 and p21 (1)(2)(3). Knockdown of JMJD5 in Michigan Cancer Foundation (MCF)-7 cells inhibits cell proliferation (1), and JMJD5 −/− embryos showed severe growth retardation, resulting in embryonic lethality at the midgestation stage (3).…”

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confidence: 99%

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JMJD5 regulates PKM2 nuclear translocation and reprograms HIF-1α–mediated glucose metabolism

Wang

Hsieh

Cheng

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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JMJD5, a Jumonji C domain-containing dioxygenase, is important for embryonic development and cancer growth. Here, we show that JMJD5 is up-regulated by hypoxia and is crucial for hypoxiainduced cell proliferation. JMJD5 interacts directly with pyruvate kinase muscle isozyme (PKM)2 to modulate metabolic flux in cancer cells. The JMJD5-PKM2 interaction resides at the intersubunit interface region of PKM2, which hinders PKM2 tetramerization and blocks pyruvate kinase activity. This interaction also influences translocation of PKM2 into the nucleus and promotes hypoxiainducible factor (HIF)-1α-mediated transactivation. JMJD5 knockdown inhibits the transcription of the PKM2-HIF-1α target genes involved in glucose metabolism, resulting in a reduction of glucose uptake and lactate secretion in cancer cells. JMJD5, along with PKM2 and HIF-1α, is recruited to the hypoxia response element site in the lactate dehydrogenase A and PKM2 loci and mediates the recruitment of the latter two proteins. Our data uncover a mechanism whereby PKM2 can be regulated by factor-bindinginduced homo/heterooligomeric restructuring, paving the way to cell metabolic reprogram.Warburg effect | aerobic glycolysis | breast cancer | cancer metabolism J MJD5 is a Jumonji C domain-containing dioxygenase shown to be involved in lysine demethylation (1-3) and hydroxylation functions (4). Although the exact cellular substrates and functions of JMJD5 remain unclear, JMJD5 was shown to positively regulate cyclin A1 but negatively regulate p53 and p21 (1-3). Knockdown of JMJD5 in Michigan Cancer Foundation (MCF)-7 cells inhibits cell proliferation (1), and JMJD5 −/− embryos showed severe growth retardation, resulting in embryonic lethality at the midgestation stage (3). These data, together with its general overexpression in tumor tissues, implicate a role of JMJD5 in carcinogenesis. In this paper, we define a role of JMJD5 in regulating tumor metabolism under normoxic and hypoxic conditions through its interaction with pyruvate kinase muscle isozyme (PKM)2.One of the hallmarks of cancer cells is their altered metabolism, referred to as aerobic glycolysis, or the Warburg effect (5). This generally involves an increased uptake of glucose, use of intracellular glucose to pyruvate via glycolysis, and the conversion into lactate in the presence of sufficient oxygen. Along this metabolic flux, PKM1 or its spliced variant, PKM2, which dephosphorylates phosphoenolpyruvate (PEP) into pyruvate, the last step of glycolysis, is an important signal integrator whose activities determine the cytosolic level of pyruvate, thereby affecting subsequent metabolic flow to lactate, tricarboxylic acid cycle or biosynthetic pathway (6). Enzymatically, PKM2, an embryonic isoform found abundantly in tumor cells, is less active than PKM1, which allows the accumulation of glycolytic intermediates and diversion into biosynthetic pathways, demanded by rapid-proliferating cells.As a pivotal regulator of tumor metabolism, PKM2's activity is further modulated by allosteric regulation vi...

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confidence: 99%

mentioning

confidence: 99%

JMJD5 regulates PKM2 nuclear translocation and reprograms HIF-1α–mediated glucose metabolism

Wang

Hsieh

Cheng

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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255

220

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“…22,23 Huang and colleagues reported that a functional nuclear localization signal (NLS) and a nuclear export signal (NES) reside in the N-terminal domain of JMJD5. 38 JMJD5 localization is tightly regulated by Importin a/b-and transportin-1-mediated nuclear import and CRC1-dependent nuclear export, suggesting that JMJD5 translocation in and out of the nucleus may be associated with a novel function.…”

Section: Discussionmentioning

confidence: 99%

“…JMJD5 has been reported to suppress gene transcription through its histone H3K36me2 demethylase activity, 22,25 or positively promote gene transcription through binding to gene promoters. 32 To investigate if JMJD5 regulates the transcription of MAP1B, we evaluated MAP1B expression in JMJD5-depleted cells, JMJD5-overexpressing cells, and control cells using RT-real time PCR.…”

Section: Jmjd5 Modulates the Stability Of Microtubules By Regulating mentioning

confidence: 99%

“…21 JMJD5 is a member of the JmjC domain-containing protein family, which has been shown to obtain H3K36me2 histone demethylase and hydroxylase activities. 22,23 JMJD5 was reported to function in multiple biological processes, including embryonic development, stem cell differentiation, osteoclastogenesis, circadian rhythm regulation, hepatitis B virus (HBV) replication, cell metabolism and cancer progression. [23][24][25][26][27][28][29][30][31][32] In addition, we previously reported that JMJD5 associated with the mitotic spindle and regulated mitotic spindle stability during mitosis.…”

Section: Introductionmentioning

confidence: 99%

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Depletion of JMJD5 sensitizes tumor cells to microtubule-destabilizing agents by altering microtubule stability

Wang

et al. 2016

Cell Cycle

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Microtubules play essential roles in mitosis, cell migration, and intracellular trafficking. Drugs that target microtubules have demonstrated great clinical success in cancer treatment due to their capacity to impair microtubule dynamics in both mitotic and interphase stages. In a previous report, we demonstrated that JMJD5 associated with mitotic spindle and was required for proper mitosis. However, it remains elusive whether JMJD5 could regulate the stability of cytoskeletal microtubules and whether it affects the efficacy of microtubuletargeting agents. In this study, we find that JMJD5 localizes not only to the nucleus, a fraction of it also localizes to the cytoplasm. JMJD5 depletion decreases the acetylation and detyrosination of a-tubulin, both of which are markers of microtubule stability. In addition, microtubules in JMJD5-depleted cells are more sensitive to nocodazole-induced depolymerization, whereas JMJD5 overexpression increases a-tubulin detyrosination and enhances the resistance of microtubules to nocodazole. Mechanistic studies revealed that JMJD5 regulates MAP1B protein levels and that MAP1B overexpression rescued the microtubule destabilization induced by JMJD5 depletion. Furthermore, JMJD5 depletion significantly promoted apoptosis in cancer cells treated with the microtubule-targeting anti-cancer drugs vinblastine or colchicine. Together, these findings suggest that JMJD5 is required to regulate the stability of cytoskeletal microtubules and that JMJD5 depletion increases the susceptibility of cancer cells to microtubule-destabilizing agents.

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Epigenetic Code

Bhan

Deb

Mandal

2017

Gene Regulation, Epigenetics and Hormone Signaling

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KDM8, a H3K36me2 histone demethylase that acts in the cyclin A1 coding region to regulate cancer cell proliferation

Cited by 170 publications

References 25 publications

JMJD5 regulates PKM2 nuclear translocation and reprograms HIF-1α–mediated glucose metabolism

JMJD5 regulates PKM2 nuclear translocation and reprograms HIF-1α–mediated glucose metabolism

Depletion of JMJD5 sensitizes tumor cells to microtubule-destabilizing agents by altering microtubule stability

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