Euphemia Leung scite author profile

Immune defence against pathogens entering the gut is accomplished by lymphocytes in the gut-associated lymphoid tissue (GALT), a major compartment of the immune system. The GALT, comprising Peyer's patches, lamina propria lymphocytes and intra-epithelial lymphocytes of the intestine, is populated by lymphocytes that migrate there from the vasculature. Here we report that, in mice deficient for the beta7 integrin subfamily of adhesion molecules, the formation of the GALT is severely impaired. This is probably due to a failure of beta7-/- lymphocytes to arrest and adhere to the vasculature at the site of transmigration into the GALT.

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Haploinsufficiency of the NF-κB1 Subunit p50 in Common Variable Immunodeficiency

Fliegauf

Bryant

Frede

et al. 2015

The American Journal of Human Genetics

207

209

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Common variable immunodeficiency (CVID), characterized by recurrent infections, is the most prevalent symptomatic antibody deficiency. In ∼90% of CVID-affected individuals, no genetic cause of the disease has been identified. In a Dutch-Australian CVID-affected family, we identified a NFKB1 heterozygous splice-donor-site mutation (c.730+4A>G), causing in-frame skipping of exon 8. NFKB1 encodes the transcription-factor precursor p105, which is processed to p50 (canonical NF-κB pathway). The altered protein bearing an internal deletion (p.Asp191_Lys244delinsGlu; p105ΔEx8) is degraded, but is not processed to p50ΔEx8. Altered NF-κB1 proteins were also undetectable in a German CVID-affected family with a heterozygous in-frame exon 9 skipping mutation (c.835+2T>G) and in a CVID-affected family from New Zealand with a heterozygous frameshift mutation (c.465dupA) in exon 7. Given that residual p105 and p50—translated from the non-mutated alleles—were normal, and altered p50 proteins were absent, we conclude that the CVID phenotype in these families is caused by NF-κB1 p50 haploinsufficiency.

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Epigenetic regulation in human melanoma: past and future

Sarkar

Leung

Baguley³

et al. 2015

Epigenetics

233

169

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Emerging Role of Long Non-Coding RNA SOX2OT in SOX2 Regulation in Breast Cancer

et al. 2014

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The transcription factor SOX2 is essential for maintaining pluripotency in a variety of stem cells. It has important functions during embryonic development, is involved in cancer stem cell maintenance, and is often deregulated in cancer. The mechanism of SOX2 regulation has yet to be clarified, but the SOX2 gene lies in an intron of a long multi-exon non-coding RNA called SOX2 overlapping transcript (SOX2OT). Here, we show that the expression of SOX2 and SOX2OT is concordant in breast cancer, differentially expressed in estrogen receptor positive and negative breast cancer samples and that both are up-regulated in suspension culture conditions that favor growth of stem cell phenotypes. Importantly, ectopic expression of SOX2OT led to an almost 20-fold increase in SOX2 expression, together with a reduced proliferation and increased breast cancer cell anchorage-independent growth. We propose that SOX2OT plays a key role in the induction and/or maintenance of SOX2 expression in breast cancer.

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Gene transfer of antisense hypoxia inducible factor-1 α enhances the therapeutic efficacy of cancer immunotherapy

et al. 2001

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Solid tumors meet their demands for nascent blood vessels and increased glycolysis, to combat hypoxia, by activating multiple genes involved in angiogenesis and glucose metabolism. Hypoxia inducible factor-1 (HIF-1) is a constitutively expressed basic helix-loop-helix transcription factor, formed by the assembly of HIF-1␣ and HIF-1␤ (Arnt), that is stablized in response to hypoxia, and rapidly degraded under normoxic conditions. It activates the transcription of genes important for maintaining oxygen homeostasis. Here, we demonstrate that engineered down-regulation of HIF-1␣ by intratumoral gene transfer of an antisense HIF-1␣ plasmid leads to the down-regulation of VEGF, and decreased tumor microvessel density. Antisense HIF-1␣ monotherapy resulted in the complete and permanent rejection of small (0.1 cm in diameter) EL-4 tumors, which is unusual for an anti-angiogenic agent where transient suppression of tumor

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Mouse B7-H3 induces antitumor immunity

et al. 2003

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Members of the B7 family costimulate the proliferation of lymphocytes during the initiation and maintenance of antigen-specific humoral and cell-mediated immune responses. While B7-1 and -2 are restricted to lymphoid tissues, and activate naïve T cells, recently identified members including B7-H2 and -H3 are widely expressed on nonlymphoid tissues, and regulate effector lymphocytes in the periphery. B7-H3 has properties that suggested it may display antitumor activity, including the ability to stimulate Th1 and cytotoxic T-cell responses. Here, we test this notion by determining whether intratumoral injection of an expression plasmid encoding a newly described mouse homologue of B7-H3 is able to eradicate EL-4 lymphomas. Intratumoral injection of a mouse B7-H3 pcDNA3 expression plasmid led to complete regression of 50% tumors, or otherwise significantly slowed tumor growth. Mice whose tumors completely regressed resisted a challenge with parental tumor cells, indicating systemic immunity had been generated. B7-H3-mediated antitumor immunity was mediated by CD8 + T and NK cells, with no apparent contribution from CD4 + T cells. In summary, the results indicate that B7-H3 interactions may play a role in regulating cell-mediated immune responses against cancer, and that B7-H3 is a potential therapeutic tool.

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MCF-7 breast cancer cells selected for tamoxifen resistance acquire new phenotypes differing in DNA content, phospho-HER2 and PAX2 expression, and rapamycin sensitivity

Leung¹,

Kannan²,

Krissansen³

et al. 2010

Cancer Biology & Therapy

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Patients with estrogen receptor-positive (ER+) breast cancers are often treated with aromatase inhibitors or by antiestrogens such as tamoxifen to prevent disease recurrence. Resistant tumors nevertheless develop and it is commonly assumed that they arise by the induction of mutations. However, it is also possible that resistant tumors grow from preexisting variant populations within the original tumor. We have investigated this possibility in the case of the MCF-7 breast cancer cell line. The line was cultured for a prolonged period either in the presence of tamoxifen to block the action of oestrogen or in the absence of estrogen to mimic the action of oophorectomy or treatment with aromatase inhibitors. Both treatments led to growth inhibition followed by eventual outgrowth of sub-lines. Five of these sub-lines were developed and characterized for sensitivity to tamoxifen and to the antibiotic rapamycin, expression of HE R2 and PAX2, and phosphorylation of Akt, p70S6K, 4E-BP1, rpS6, EGFR1, Erk and HE R2. All six lines were ER+ and could be divided into four phenotypes distinguished by cell volume, DNA content (ploidy) and cell cycle time. In two cases, selection with tamoxifen and selection in the absence of estrogen produced similar phenotypes. Rapamycin resistance was a feature of the sub-lines developed under estrogen deprivation and was associated with loss of active phospho-HE R2 and acquisition of PAX2 expression. The results support the conclusion that the MCF-7 cell line is heterogeneous and that the selection conditions allow the growth of pre-existing phenotypes.

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YM155 down‐regulates survivin and XIAP, modulates autophagy and induces autophagy‐dependent DNA damage in breast cancer cells

Cheng

Chang²,

Liu³

et al. 2014

British J Pharmacology

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BACKGROUND AND PURPOSEThe aim of this study was to determine the potency and molecular mechanism of action of YM155, a first-in-class survivin inhibitor that is currently under phase I/II clinical investigations, in various drug-resistant breast cancers including the oestrogen receptor positive (ER + ) tamoxifen-resistant breast cancer and the caspase-3-deficient breast cancer. EXPERIMENTAL APPROACHThe potency of YM155 in SK-BR-3, MDA-MB-231, MCF7 and its tamoxifen-resistant sublines, TamR6, TamR7, TamR8, TamC3 and TamC6, were determined by MTT assay. Western blot analysis, flow cytometric analysis, reverse transcription-PCR, fluorescent microscopy and comet assay were used to determine the molecular mechanism of action of YM155 in different breast cancer cell lines. KEY RESULTS YM155 was equally potent towards the parental ER /HER2+ SK-BR-3 breast cancer cells and the triple-negative/caspase-3-expressing metastatic aggressive MDA-MB-231 breast cancer cells were also sensitive to YM155 with IC50 values in the low nanomolar range. Targeting survivin by YM155 modulated autophagy, induced autophagy-dependent caspase-7 activation and autophagy-dependent DNA damage in breast cancer cells. Interestingly, YM155 also induced XIAP degradation and the degradation of XIAP might play an important role in YM155-induced autophagy in breast cancer cells.

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Euphemia Leung

Critical role for β7 integrins in formation of the gut-associated lymphoid tissue

Haploinsufficiency of the NF-κB1 Subunit p50 in Common Variable Immunodeficiency

Epigenetic regulation in human melanoma: past and future

Emerging Role of Long Non-Coding RNA SOX2OT in SOX2 Regulation in Breast Cancer

Gene transfer of antisense hypoxia inducible factor-1 α enhances the therapeutic efficacy of cancer immunotherapy

Mouse B7-H3 induces antitumor immunity

MCF-7 breast cancer cells selected for tamoxifen resistance acquire new phenotypes differing in DNA content, phospho-HER2 and PAX2 expression, and rapamycin sensitivity

YM155 down‐regulates survivin and XIAP, modulates autophagy and induces autophagy‐dependent DNA damage in breast cancer cells

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