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    <title>OAR@UM Collection:</title>
    <link>https://www.um.edu.mt/library/oar/handle/123456789/64209</link>
    <description />
    <pubDate>Fri, 03 Jul 2026 16:52:11 GMT</pubDate>
    <dc:date>2026-07-03T16:52:11Z</dc:date>
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      <title>The HIF system and Inhibitory PAS Domain Protein (IPAS) - a role in vascular remodelling</title>
      <link>https://www.um.edu.mt/library/oar/handle/123456789/31721</link>
      <description>Title: The HIF system and Inhibitory PAS Domain Protein (IPAS) - a role in vascular remodelling
Abstract: In mammalian cells, the hypoxic response is mediated by a family of transcription&#xD;
factors known as hypoxia inducible factors (HI F). These are heterodimers composed&#xD;
of a tightly regulated alpha subunit and a constituitively expressed beta subunit (also&#xD;
known as aryl hydrocarbon nuclear translocator, ARNT). Three 0.- subunits have been&#xD;
identified so far, HIF-1 α, HIF-2 α and HIF-3 α. HIF-1 α  and HIF-2 α are regulated&#xD;
mostly At the protein level via oxygen depedent degredation by the proteasome.&#xD;
Hypoxia leads to their stabilisation, binding to hypoxia responsive elements (HRE)&#xD;
and target gene transactivation. HIF-3 α is still poorly characterised. In mouse, a HIF-&#xD;
3 α splice variant called inhibitory PAS domain protein has an inhibitory effect on HIF-&#xD;
10. mediated activity. In humans a number of HII--3a splice variants have been&#xD;
reported. It was one aim of this study to investigate the roles of the largest isoform,&#xD;
HIF-3a1, and a smaller isoform resembling mouse IPAS, HIF-3a3, in the hypoxic&#xD;
response of endothelial cells. Both variants were expressed in vascular cells and in&#xD;
the vascular wall. HIF-3 α 1 but not HIF-3a3 was regulated by tile proteasome. Whilst&#xD;
both proteins were found to interact with HIF-1a and ARNT, HIF-3a1 was found to&#xD;
bind to the HRE and disturb HIF-1 α -DNA binding. A competition mechanism between&#xD;
HIF-3 α isoforms and HIF-1 α was found to cause downregulation of HIF-1&#xD;
transcriptional activity resulting in decreased endothelial cell proliferation and&#xD;
angiogenesis under hypoxia. The second part of the study aimed to clarify the&#xD;
mechanism by which non-hypoxic stimuli can upregulate HIF-1a in pulmonary artery&#xD;
smooth muscle cells. HIF-1a upregulation by thrombin occurred via an ROS dependent&#xD;
mechanism by activation of the NADPH oxidase. This led to upregulation&#xD;
of NFKB activity which interacted with a novel binding site on the HIF-1a promoter&#xD;
and induced its transcription.
Description: PH.D.</description>
      <pubDate>Sun, 01 Jan 2006 00:00:00 GMT</pubDate>
      <guid isPermaLink="false">https://www.um.edu.mt/library/oar/handle/123456789/31721</guid>
      <dc:date>2006-01-01T00:00:00Z</dc:date>
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