Simultaneous Translocation of Both TCR Loci (14q11) with Rare Partner Loci (Xq22 and 12p13) in a Case of T-lymphoblastic Leukemia

Kang, Dong-Hee; Kim, Se Hyung; Jun, Jeong Woo; Lee, Yong-Wha; Shin, Hee Bong; Ahn, Jee Young; Hong, Dae Sik; Jeon, Byung Ryul

doi:10.3343/alm.2012.32.3.220

Cited by 9 publications

(4 citation statements)

References 14 publications

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“…In fact, the inference that IRS4 is a constitutive active IRS is also in line with our finding that the Irs4 gene is a target for retroviral insertional mutagenesis, as this process leads with few exceptions to transcriptional deregulation of the target genes rather than to mutations affecting protein function34. The notion that IRS4 is a constitutive active oncogenic protein primarily regulated transcriptionally also explains the recent observations that chromosomal translocation events can activate Irs4 expression, leading to T-cell acute lymphoblastic leukaemia3536 and subungual exostosis (a benign bone and cartilage producing tumour)37. In addition, in human hepatocellular carcinomas (HCC), IRS4 expression is frequently upregulated compared with hepatocytes38, and its role in this malignancy has been further substantiated in the HEPG2 hepatoblastoma cell line where IRS4 plays an important role in cell proliferation39.…”

Section: Discussionsupporting

confidence: 85%

IRS4 induces mammary tumorigenesis and confers resistance to HER2-targeted therapy through constitutive PI3K/AKT-pathway hyperactivation

et al. 2016

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In search of oncogenic drivers and mechanisms affecting therapy resistance in breast cancer, we identified Irs4, a poorly studied member of the insulin receptor substrate (IRS) family, as a mammary oncogene by insertional mutagenesis. Whereas normally silent in the postnatal mammary gland, IRS4 is found to be highly expressed in a subset of breast cancers. We show that Irs4 expression in mammary epithelial cells induces constitutive PI3K/AKT pathway hyperactivation, insulin/IGF1-independent cell proliferation, anchorage-independent growth and in vivo tumorigenesis. The constitutive PI3K/AKT pathway hyperactivation by IRS4 is unique to the IRS family and we identify the lack of a SHP2-binding domain in IRS4 as the molecular basis of this feature. Finally, we show that IRS4 and ERBB2/HER2 synergistically induce tumorigenesis and that IRS4-expression confers resistance to HER2-targeted therapy. Taken together, our findings present the cellular and molecular mechanisms of IRS4-induced tumorigenesis and establish IRS4 as an oncogenic driver and biomarker for therapy resistance in breast cancer.

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Section: Discussionsupporting

confidence: 85%

IRS4 induces mammary tumorigenesis and confers resistance to HER2-targeted therapy through constitutive PI3K/AKT-pathway hyperactivation

et al. 2016

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“…In addition, activating mutations in the PI3K-AKT pathway that are detected at a lower frequency in T-ALL are found in AKT1, PI3K catalytic and regulatory subunit genes, PIKC3A, and PIK3CD (Gutierrez et al 2009;Zuurbier et al 2012;Liu et al 2017). Moreover, the t(X;7)(q22;q34) and t(X;14)(q22;q11.2) translocations induce overexpression of IRS4 (Karrman et al 2009b;Kang et al 2012), a signaling factor that activates AKT (Uchida et al 2000). Importantly, inhibition of the PI3K/AKT/mTOR axis induces apoptosis and suppresses the growth of T-ALL in mouse models, cell lines and primary human T-ALL xenografts (Evangelisti et al 2011;Subramaniam et al 2012;Piovan et al 2013;Dail et al 2014) thus representing a potential therapeutic opportunity for T-ALL patients.…”

Section: Pi3k-aktmentioning

confidence: 99%

The Genetics and Mechanisms of T-Cell Acute Lymphoblastic Leukemia

Gianni

Belver

Ferrando

2019

Cold Spring Harb Perspect Med

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T-cell acute lymphoblastic leukemia (T-ALL) is an aggressive hematologic malignancy derived from early T-cell progenitors. The recognition of clinical, genetic, transcriptional, and biological heterogeneity in this disease has already translated into new prognostic biomarkers, improved leukemia animal models, and emerging targeted therapies. This work reviews our current understanding of the molecular mechanisms of T-ALL.

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“…In T-ALL, t(X;7)(q22;q34) brought IRS4 under the transcriptional control of T-cell receptor beta locus (from 7q34) regulatory elements (48). Rearrangements of Xq22/IRS4 and 14q11.2/Tcell receptor alpha-delta locus (TCRAD) were also found in a T-ALL carrying the translocation t(X;14)(q22;q11.2) (49). In a pan-cancer study, IRS4 was overexpressed in 10 different tumor types due to regulatory elements, such as enhancers being rearranged and juxtaposed near to IRS4 (50,51).…”

Section: Discussionmentioning

confidence: 98%

Pathogenetic Dichotomy in Angioleiomyoma

PANAGOPOULOS,

ANDERSEN,

BRUNETTI

et al. 2023

Cancer Genomics Proteomics

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Background/Aim: Angioleiomyoma is a benign tumor, occurs at any age, and arises most frequently in the lower extremities. Genetic information on angioleiomyomas is restricted to six reported abnormal karyotypes, losses in chromosome 22 and gains in Xq found by comparative genomic hybridization, and mutation analysis of notch receptor 2 (NOTCH2), NOTCH3, platelet-derived growth factor receptor beta (PDGFRB), and mediator complex subunit 12 (MED12) in a few tumors. Herein, we report the genetic findings in another three angioleiomyomas. Materials and Methods: The tumors were examined using G-banding and karyotyping, RNA sequencing, reverse transcriptionpolymerase chain reaction, Sanger sequencing, and expression analysis. Results: The first tumor carried a t(4;5)(p12;q32) translocation resulting in fusion of the cardiac mesoderm enhancer-associated non-coding RNA (CARMN in 5q32) with the TXK tyrosine kinase gene (TXK in 4p12) leading to overexpression of TXK. To our knowledge, this is the first time that a recurrent chromosome translocation and its resulting fusion gene have been described in angioleiomyomas. The second tumor carried a four-way translocation, t(X;3;4;16)(q22;p11;q11;p13) which fused the myosin heavy chain 11 gene (MYH11 in 16p13) with intergenic sequences from Xq22 that mapped a few kilobase pairs distal to the insulin receptor substrate 4 gene (IRS4), resulting in enhanced IRS4 expression. The third angioleiomyoma carried another rearrangement of chromosome band Xq22, t(X;9)(q22;q32), as the sole cytogenetic aberration, but no material was available for further molecular investigation. Conclusion: Our data, together with previously reported abnormal karyotypes in angioleiomyomas, show the presence of two recurrent genetic pathways in this tumor type: The first is characterized by presence of the translocation t(4;5)(p12;q32), which generates a CARMN::TXK chimera. The second is recurrent rearrangement of Xq22 resulting in overexpression of IRS4.Angioleiomyoma, also known as angiomyoma, vascular leiomyoma or dermal angioma, is a benign tumor believed to arise from the smooth muscle layer (tunica media) of subcutaneous blood vessels (1). In the World Health Organization classification of soft-tissue and bone tumors, published in 2020, angioleiomyoma is considered a distinct tumor entity which, together with glomus tumor and myopericytoma, form the group of pericytic (perivascular) tumors (2). Angioleiomyoma accounts for 5% of all benign soft tumors, may occur at any age with a peak incidence between the fourth and sixth decade of life, and may arise anywhere but most frequently in the lower extremities (3). Fewer than 50 angioleiomyomas of the knee have been reported to date (4).Angioleiomyomas are typically firm, well-circumscribed nodules in which well-differentiated, perivascular smoothmuscle cells are arranged around numerous vascular channels (2). The tumor cells are consistently positive for smooth 556

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Simultaneous Translocation of Both TCR Loci (14q11) with Rare Partner Loci (Xq22 and 12p13) in a Case of T-lymphoblastic Leukemia

Cited by 9 publications

References 14 publications

IRS4 induces mammary tumorigenesis and confers resistance to HER2-targeted therapy through constitutive PI3K/AKT-pathway hyperactivation

IRS4 induces mammary tumorigenesis and confers resistance to HER2-targeted therapy through constitutive PI3K/AKT-pathway hyperactivation

The Genetics and Mechanisms of T-Cell Acute Lymphoblastic Leukemia

Pathogenetic Dichotomy in Angioleiomyoma

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