- Browse by Author
Browsing by Author "Pan, Feng"
Now showing 1 - 5 of 5
Results Per Page
Sort Options
Item Combined loss of Tet1 and Tet2 promotes B-cell, but not myeloid malignancies in mice.(Elsevier, 2015-11-24) Zhao, Zhigang; Chen, Li; Dawlaty, Meelad M.; Pan, Feng; Weeks, Ophelia; Zhou, Yuan; Cao, Zeng; Shi, Hui; Wang, Jiapeng; Lin, Li; Chen, Shi; Yuan, Weiping; Qin, Zhaohui; Ni, Hongyu; Nimer, Stephen D.; Yang, Feng-Chun; Jaenisch, Rudolf; Jin, Peng; Xu, Mingjiang; Department of Pediatrics, IU School of MedicineTET1/2/3 are methylcytosine dioxygenases that regulate cytosine hydroxymethylation. Tet1/2 are abundantly expressed in HSC/HPCs and are implicated in hematological malignancies. Tet2-deletion in mice causes myeloid malignancies, while Tet1-null mice develop B-cell lymphoma after an extended period of latency. Interestingly, TET1/2 are often concomitantly downregulated in acute B-lymphocytic leukemia. Here, we investigated the overlapping and non-redundant functions of Tet1/2 in HSC maintenance and development of hematological malignancies using Tet1/2 double knockout (DKO) mice. DKO and Tet2−/− HSC/HPCs showed overlapping and unique 5hmC and 5mC profiles, and behaved differently. DKO mice exhibited strikingly decreased incidence and delayed-onset of myeloid malignancies compared to Tet2−/− mice, and in contrast developed lethal B-cell malignancies. Transcriptome analysis of DKO tumors revealed expression changes in many genes dysregulated in human B-cell malignancies, such as LMO2, BCL6 and MYC. These results highlight the critical roles of TET1/2 individually and together via communication in the pathogenesis of hematological malignancies.Item Consecutive epigenetically-active agent combinations act in ID1-RUNX3-TET2 and HOXA pathways for Flt3ITD+ve AML(Impact Journals, 2017-12-25) Sayar, Hamid; Liu, Yan; Gao, Rui; Zaid, Mohammad Abu; Cripe, Larry D.; Weisenbach, Jill; Sargent, Katie J.; Nassiri, Mehdi; Li, Lang; Konig, Heiko; Suvannasankha, Attaya; Pan, Feng; Shanmugam, Rajasubramaniam; Goswami, Chirayu; Kapur, Reuben; Xu, Mingjiang; Boswell, H. Scott; Medicine, School of MedicineCo-occurrence of Flt3ITD and TET2 mutations provoke an animal model of AML by epigenetic repression of Wnt pathway antagonists, including RUNX3, and by hyperexpression of ID1, encoding Wnt agonist. These affect HOXA over-expression and treatment resistance. A comparable epigenetic phenotype was identified among adult AML patients needing novel intervention. We chose combinations of targeted agents acting on distinct effectors, at the levels of both signal transduction and chromatin remodeling, in relapsed/refractory AML's, including Flt3ITD+ve, described with a signature of repressed tumor suppressor genes, involving Wnt antagonist RUNX3, occurring along with ID1 and HOXA over-expressions. We tracked patient response to combination of Flt3/Raf inhibitor, Sorafenib, and Vorinostat, pan-histone deacetylase inhibitor, without or with added Bortezomib, in consecutive phase I trials. A striking association of rapid objective remissions (near-complete, complete responses) was noted to accompany induced early pharmacodynamic changes within patient blasts in situ, involving these effectors, significantly linking RUNX3/Wnt antagonist de-repression (80%) and ID1 downregulation (85%), to a response, also preceded by profound HOXA9 repression. Response occurred in context of concurrent TET2 mutation/hypomorphy and Flt3ITD+ve mutation (83% of complete responses). Addition of Bortezomib to the combination was vital to attainment of complete response in Flt3ITD+ve cases exhibiting such Wnt pathway dysregulation.Item Loss of Asxl1 leads to myelodysplastic syndrome-like disease in mice(American Society of Hematology, 2014-01-23) Wang, Jiapeng; Li, Zhaomin; He, Yongzheng; Pan, Feng; Chen, Shi; Rhodes, Steven; Nguyen, Lihn; Yuan, Jin; Jiang, Li; Yang, Xianlin; Weeks, Ophelia; Liu, Ziyue; Zhou, Jiehao; Ni, Hongyu; Cai, Chen-Leng; Xu, Mingjiang; Yang, Feng-Chun; Department of Biostatistics, School of Public HealthASXL1 is mutated/deleted with high frequencies in multiple forms of myeloid malignancies, and its alterations are associated with poor prognosis. De novo ASXL1 mutations cause Bohring-Opitz syndrome characterized by multiple congenital malformations. We show that Asxl1 deletion in mice led to developmental abnormalities including dwarfism, anophthalmia, and 80% embryonic lethality. Surviving Asxl1(-/-) mice lived for up to 42 days and developed features of myelodysplastic syndrome (MDS), including dysplastic neutrophils and multiple lineage cytopenia. Asxl1(-/-) mice had a reduced hematopoietic stem cell (HSC) pool, and Asxl1(-/-) HSCs exhibited decreased hematopoietic repopulating capacity, with skewed cell differentiation favoring granulocytic lineage. Asxl1(+/-) mice also developed mild MDS-like disease, which could progress to MDS/myeloproliferative neoplasm, demonstrating a haploinsufficient effect of Asxl1 in the pathogenesis of myeloid malignancies. Asxl1 loss led to an increased apoptosis and mitosis in Lineage(-)c-Kit(+) (Lin(-)c-Kit(+)) cells, consistent with human MDS. Furthermore, Asxl1(-/-) Lin(-)c-Kit(+) cells exhibited decreased global levels of H3K27me3 and H3K4me3 and altered expression of genes regulating apoptosis (Bcl2, Bcl2l12, Bcl2l13). Collectively, we report a novel ASXL1 murine model that recapitulates human myeloid malignancies, implying that Asxl1 functions as a tumor suppressor to maintain hematopoietic cell homeostasis. Future work is necessary to clarify the contribution of microenvironment to the hematopoietic phenotypes observed in the constitutional Asxl1(-/-) mice.Item Simulation of Turing Machine with uEAC-Computable Functions(Hindawi, 2015) Zhu, Yilin; Pan, Feng; Li, Lingxi; Ren, Xuemei; Gao, Qi; Department of Electrical and Computer Engineering, School of Engineering and TechnologyThe micro-Extended Analog Computer (uEAC) is an electronic implementation inspired by Rubel’s EAC model. In this study, a fully connected uEACs array is proposed to overcome the limitations of a single uEAC, within which each uEAC unit is connected to all the other units by some weights. Then its computational capabilities are investigated by proving that a Turing machine can be simulated with uEAC-computable functions, even in the presence of bounded noise.Item Tet2 loss leads to hypermutagenicity in haematopoietic stem/progenitor cells(SpringerNature, 2017-04-25) Pan, Feng; Wingo, Thomas S.; Zhao, Zhigang; Gao, Rui; Makishima, Hideki; Qu, Guangbo; lin, Li; Yu, Miao; Ortega, Janice R.; Wang, Jiapeng; Nazha, Aziz; Chen, Li; Yao, Bing; Liu, Can; Chen, Shi; Weeks, Ophelia; Ni, Hongyu; Phillips, Brittany Lynn; Huang, Suming; Wang, Jianlong; He, Chuan; Li, Guo-Min; Radivoyevitch, Tomas; Aifantis, Iannis; Maciejewski, Jaroslaw P.; Yang, Feng-Chun; Jin, Peng; Xu, Mingjiang; Department of Pediatrics, School of MedicineTET2 is a dioxygenase that catalyses multiple steps of 5-methylcytosine oxidation. Although TET2 mutations frequently occur in various types of haematological malignancies, the mechanism by which they increase risk for these cancers remains poorly understood. Here we show that Tet2-/- mice develop spontaneous myeloid, T- and B-cell malignancies after long latencies. Exome sequencing of Tet2-/- tumours reveals accumulation of numerous mutations, including Apc, Nf1, Flt3, Cbl, Notch1 and Mll2, which are recurrently deleted/mutated in human haematological malignancies. Single-cell-targeted sequencing of wild-type and premalignant Tet2-/- Lin-c-Kit+ cells shows higher mutation frequencies in Tet2-/- cells. We further show that the increased mutational burden is particularly high at genomic sites that gained 5-hydroxymethylcytosine, where TET2 normally binds. Furthermore, TET2-mutated myeloid malignancy patients have significantly more mutational events than patients with wild-type TET2. Thus, Tet2 loss leads to hypermutagenicity in haematopoietic stem/progenitor cells, suggesting a novel TET2 loss-mediated mechanism of haematological malignancy pathogenesis.