The aim was to measure the expression levels of hypoxia inducible factor 1-α (HJF-lα), glucose
transporter one (GLUT-1), and vascular endothelial growth factor (VEGF) isoforms 165 and 189
mRNA in patients with renal cell carcinoma (RCC). Patients with RCC underwent radical
nephrectomy at Derriford Hospital, Plymouth. Tumour as well as matched normal tissue from
the kidney was harvested, snap frozen and stored in liquid nitrogen, and used to quantitate
VEGF 165, VEGF 189, GLUT-1 and HJF-1α mRNA expression using ribonuclease protection
assays, and quantified using a Phosphor-imager system.
The VEGF 165 isoform was increased in the tumour tissue in comparison with the adjacent
normal tissue (3.05 vs. 1.56 P=0.00002) as was the VEGF 189 isoform (2.41 vs. 1.43 P=0.0002).
Forty four patients were analysed for the expression of HIF-lα and GLUT-1 with statically
significant differences seen between the tumour tissues with respect to the normal tissue for both
HIF-lα (1.34 vs. 1.10 P=0.01) and GLUT-1 (1.99 vs. 1.63 P=0.003).
Hypoxia inducible factor I (HIF-1) is a key regulator of genes involved in the hypoxic response.
HIF consists of alpha and beta subunits, with the alpha subunit being degraded under normoxic
conditions and stabilised under hypoxia. Polymorph isms in exon 12 of the HIF gene have been
recently been identified consisting of nucleotide changes (C+ 1772T and G+ 1790A) resulting in
an amino acid substitution from Proline 582 to Serine, and Alanine 588 to Threonine
respectively. These polymorphisms are found within the oxygen-dependent degradation domain
(ODD) of the HIF-lα protein when transcribed which is important in the oxygen regulation of
the protein via hydroxylation of the proline residue at position 564 (P564) by HIF-α- prolylhydroxylase
(HIF-PH). The regulation of HIF-1α by this method is a novel way of regulating
the levels of the protein, and polymorphisms in the ODD of HIF-lα may affect the ability of
VHL to direct the alpha subunit for destruction.
We have genotyped 146 patients and 288 controls for the G+ 1790A, and 160 patients and 162
controls for the C+ 1772T polymorphisms respectively. We found an increase in both the GA and
CC (P<0.00001 and P= 0.00002) genotypes in our patients with renal cell carcinoma, and a
decrease in GG and CT (P<0.00001 and P=0.00002) genotypes respectively. Haplotype analysis
revealed there to be an increase in the T-A and C-A haplotypes (P=0.00008, and P=0.02) and a
decrease in the T-G haplotype P=0.01. No statistical difference was found for the other
haplotypes. We have shown that these HIF-lα polymorphisms are present in RCC with
increased frequency and may play an important role in the disease process, leading to increased
angiogenesis in the tumour.
Vascular endothelial growth factor (VEGF) is a highly specific mitogen that is able to stimulate
the proliferation of endothelial cells. There have been a number of findings linking the
expression of VEGF with RCC, with it also being used to assess the prognosis of the disease.
Polymorphisms in the VEGF gene have been recently identified. A possible link between
promoter polymorphisms and expression of mRNA isoforms has been found in a variety of
cytokines. Certain polymorphisms in renal cell carcinoma patients can lead to an up regulation of
the expression of the mRNA, and may be a factor in the highly vascularized nature of the
tumours studied. The aim was to investigate the frequency of polymorphisms within the VEGF
gene (C-2578A) in 173 patients with RCC and 142 normal controls. No differences were seen
between the patients and control populations, and the polymorphism did not correlate with
Robson stage, Fuhrman grade or age and gender. Although a trend was seen between the C-
2578A polymorphism and expression of VEGF mRNA species in RCC patients.
Date of Award | 2003 |
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Original language | English |
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Awarding Institution | |
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A STUDY OF THE MOLECULAR GENETICS OF RENAL CELL CARCINOMA IN MAN
Ollerenshaw, M. (Author). 2003
Student thesis: PhD