Jessemy D. Neiger scite author profile

Jessemy D. Neiger

5Publications

62Citation Statements Received

141Citation Statements Given

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129

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Affiliations

Texas A&M Health Science Center, Mayo Clinic, Mayo Clinic

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Rearrangements and Amplification of IER3 (IEX-1) Represent a Novel and Recurrent Molecular Abnormality in Myelodysplastic Syndromes

Steensma

Neiger

Porcher

et al. 2009

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IER3 ( formerly IEX-1) encodes a 27-kDa glycoprotein that regulates death receptor-induced apoptosis, interacts with NF-KB pathways, and increases expression rapidly in response to cellular stresses such as irradiation. Animal models, gene expression microarray experiments, and functional studies in cell lines have suggested a potential role for IER3 in oncogenesis, but, to date, no abnormalities of IER3 at the DNA level have been reported in patients with neoplasia. Here, we describe breakpoint cloning of a t(6;9)(p21;q34) translocation from a patient with a myelodysplastic syndrome (MDS), facilitated by conversion technology and array-based comparative genomic hybridization, which revealed a rearrangement translocating the IER3 coding region away from critical flanking/regulatory elements and to a transcript-poor chromosomal region, markedly decreasing expression. Using splitsignal and locus-specific fluorescence in situ hybridization (FISH) probes, we analyzed 204 patients with diverse hematological malignancies accompanied by clonal chromosome 6p21 abnormalities, and found 8 additional patients with MDS with IER3 rearrangements (translocations or amplification). Although FISH studies on 157 additional samples from patients with MDS and a normal-karyotype were unrevealing, and sequencing the IER3 coding and proximal promoter regions of 74 MDS patients disclosed no point mutations, reverse transcription-PCR results suggested that dysregulated expression of IER3 is common in MDS (61% >4-fold increase or decrease in expression with decreased expression primarily in early MDS and increased expression primarily in later MDS progressing toward leukemia), consistent with findings in previous microarray experiments. These data support involvement of IER3 in the pathobiology of MDS.

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Regulation of α₇-integrin expression in vascular smooth muscle by injury-induced atherosclerosis

Chao¹,

Meininger²,

Patterson³

et al. 2004

American Journal of Physiology-Heart and Circulatory Physiology

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Injury of vascular smooth muscle cells (VSMCs) by allylamine (AAM) leads to phenotypic changes associated with atherogenic progression including increased proliferation, migration, and alterations in cell adhesion. In the present study, the relationship between AAM-induced vascular injury and expression of the alpha(7)-integrin subunit was investigated. The alpha(7)-mRNA and protein expression were examined using real-time RT-PCR, fluorescence-activated cell sorting analysis (FACS), immunohistochemistry, and immunoblotting. In cultured VSMCs from aortas of AAM-treated rats (70 mg/kg for 20 days), alpha(7)-mRNA levels were increased more than twofold compared with control cells. No change was seen in beta(1)-integrin expression. FACS analysis revealed increased cell surface expression of alpha(7)-protein (25 +/- 9%; *P < 0.05). AAM treatment of naive VSMCs enhanced alpha(7)-mRNA expression (2.4 +/- 0.7-fold, mean +/- SE; *P < 0.05). The increased alpha(7)-mRNA expression was attenuated by the amine oxidase inhibitor semicarbazide and the antioxidant pyrrolidine dithiocarbamate, which confirms a role for oxidative stress in modulating alpha(7)-expression. In vivo alpha(7)-mRNA and protein expression were enhanced in the aortas of AAM-treated rats. In addition, increased alpha(7)-integrin expression facilitated AAM VSMC adhesion to laminin more efficiently compared with control (51 +/- 2%; *P < 0.05). Chemical injury induced by AAM significantly enhances alpha(7)-integrin expression in VSMCs. These findings implicate for the first time the expression of alpha(7)-integrin during the response of VSMCs to vascular injury.

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Transforming growth factor-β signaling in hypertensive remodeling of porcine aorta

Popović

Bridenbaugh

Neiger

et al. 2009

American Journal of Physiology-Heart and Circulatory Physiology

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A porcine aortic coarctation model was used to examine regulation of gene expression in early hypertensive vascular remodeling. Aortic segments were collected proximal (high pressure) and distal (low pressure) to the coarctation after 2 wk of sustained hypertension (mean arterial pressure > 150 mmHg). Porcine 10K oligoarrays used for gene expression profiling of the two regions of aorta revealed downregulation of cytoskeletal and upregulation of extracellular region genes relative to the whole genome. A genomic database search for transforming growth factor-β (TGF-β) control elements showed that 19% of the genes that changed expression due to hypertension contained putative TGF-β control elements. Real-time RT-PCR and microarray analysis showed no change in expression of TGF-β1, TGF-β2, TGF-β3, or bone morphogenetic proteins-2 and -4, yet immunohistochemical staining for phosphorylated SMAD2, an indicator of TGF-β signaling, and for phosphorylated SMAD1/5/8, an indicator of signaling through the bone morphogenetic proteins, showed the highest percentage of positively stained cells in the proximal aortic segments of occluded animals. For TGF-β signaling, this increase was significantly different than for sham-operated controls. Western blot analysis showed no difference in total TGF-β1 protein levels with respect to treatment or aortic segment. Immunohistochemistry showed that the protein levels of latency-associated peptide was decreased in proximal segments of occluded animals. Collectively, these results suggest that activation of TGF-β, but not altered expression, may be a major mechanism regulating early hypertensive vascular remodeling.

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Modulation of α4 integrin mRNA levels is coupled to deficits in vasomotor function in rat arterioles by allylamine

Neiger¹,

Crow²,

Partridge³

et al. 2005

Life Sciences

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Supplementary Table 1 from Rearrangements and Amplification of <i>IER3</i> (<i>IEX-1</i>) Represent a Novel and Recurrent Molecular Abnormality in Myelodysplastic Syndromes

Steensma¹,

Neiger²,

Porcher³

et al. 2023

Preprint

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Jessemy D. Neiger

Rearrangements and Amplification of IER3 (IEX-1) Represent a Novel and Recurrent Molecular Abnormality in Myelodysplastic Syndromes

Regulation of α₇-integrin expression in vascular smooth muscle by injury-induced atherosclerosis

Transforming growth factor-β signaling in hypertensive remodeling of porcine aorta

Modulation of α4 integrin mRNA levels is coupled to deficits in vasomotor function in rat arterioles by allylamine

Supplementary Table 1 from Rearrangements and Amplification of <i>IER3</i> (<i>IEX-1</i>) Represent a Novel and Recurrent Molecular Abnormality in Myelodysplastic Syndromes

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Jessemy D. Neiger

Rearrangements and Amplification of IER3 (IEX-1) Represent a Novel and Recurrent Molecular Abnormality in Myelodysplastic Syndromes

Regulation of α7-integrin expression in vascular smooth muscle by injury-induced atherosclerosis

Transforming growth factor-β signaling in hypertensive remodeling of porcine aorta

Modulation of α4 integrin mRNA levels is coupled to deficits in vasomotor function in rat arterioles by allylamine

Supplementary Table 1 from Rearrangements and Amplification of <i>IER3</i> (<i>IEX-1</i>) Represent a Novel and Recurrent Molecular Abnormality in Myelodysplastic Syndromes

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Regulation of α₇-integrin expression in vascular smooth muscle by injury-induced atherosclerosis