David A. Elson scite author profile

Hypoxia-inducible factor-1␣ (HIF-1␣) transactivates genes required for energy metabolism and tissue perfusion and is necessary for embryonic development and tumor explant growth. HIF-1␣ is overexpressed during carcinogenesis, myocardial infarction, and wound healing; however, the biological consequences of HIF-1␣ overexpression are unknown. Here, transgenic mice expressing constitutively active HIF-1␣ in epidermis displayed a 66% increase in dermal capillaries, a 13-fold elevation of total vascular endothelial growth factor (VEGF) expression, and a six-to ninefold induction of each VEGF isoform. Despite marked induction of hypervascularity, HIF-1␣ did not induce edema, inflammation, or vascular leakage, phenotypes developing in transgenic mice overexpressing VEGF cDNA in skin. Remarkably, blood vessel leakage resistance induced by HIF-1␣ overexpression was not caused by up-regulation of angiopoietin-1 or angiopoietin-2. Hypervascularity induced by HIF-1␣ could improve therapy of tissue ischemia.

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Loss of Cul1 results in early embryonic lethality and dysregulation of cyclin E

Dealy

et al. 1999

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The sequential timing of cell-cycle transitions is primarily governed by the availability and activity of key cell-cycle proteins. Recent studies in yeast have identified a class of ubiquitin ligases (E3 enzymes) called SCF complexes, which regulate the abundance of proteins that promote and inhibit cell-cycle progression at the G1-S phase transition. SCF complexes consist of three invariable components, Skp1, Cul-1 (Cdc53 in yeast) and Rbx1, and a variable F-box protein that recruits a specific cellular protein to the ubquitin pathway for degradation. To study the role of Cul-1 in mammalian development and cell-cycle regulation, we generated mice deficient for Cul1 and analysed null embryos and heterozygous cell lines. We show that Cul1 is required for early mouse development and that Cul1 mutants fail to regulate the abundance of the G1 cyclin, cyclin E (encoded by Ccne), during embryogenesis.

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A 5′ Differentially Methylated Sequence and the 3′-Flanking Region Are Necessary forH19Transgene Imprinting

Elson

Bartolomei

1997

Molecular and Cellular Biology

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The mouse H19 gene is expressed exclusively from the maternal allele. The imprinted expression of the endogenous gene can be recapitulated in mice by using a 14-kb transgene encompassing 4 kb of 5'-flanking sequence, 8 kb of 3'-flanking sequence, which includes the two endoderm-specific enhancers, and an internally deleted structural gene. We have generated multiple transgenic lines with this 14-kb transgene and found that high-copy-number transgenes most closely follow the imprinted expression of the endogenous gene. To determine which sequences are important for imprinted expression, deletions were introduced into the transgene. Deletion of the 5' region, where a differentially methylated sequence proposed to be important in determining parental-specific expression is located, resulted in transgenes that were expressed and hypomethylated, regardless of parental origin. A 6-kb transgene, which contains most of the differentially methylated sequence but lacks the 8-kb 3' region, was not expressed and also not methylated. These results indicate that expression of either the H19 transgene or a 3' DNA sequence is key to establishing the differential methylation pattern observed at the endogenous locus. Finally, methylation analysis of transgenic sperm DNA from the lines that are not imprinted reveals that the transgenes are not capable of establishing and maintaining the paternal methylation pattern observed for imprinted transgenes and the endogenous paternal allele. Thus, the imprinting of the H19 gene requires a complex set of elements including the region of differential methylation and the 3'-flanking sequence.

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Elucidation of the Minimal Sequence Required to Imprint H19 Transgenes

Cranston¹,

Spinka²,

Elson³

et al. 2001

Genomics

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David A. Elson

Induction of hypervascularity without leakage or inflammation in transgenic mice overexpressing hypoxia-inducible factor-1α

Loss of Cul1 results in early embryonic lethality and dysregulation of cyclin E

A 5′ Differentially Methylated Sequence and the 3′-Flanking Region Are Necessary forH19Transgene Imprinting

Elucidation of the Minimal Sequence Required to Imprint H19 Transgenes

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