The 825C/T polymorphism of the G-protein subunit ß3 does not influence blood pressure and renal function in kidney transplant recipients

Rudolf P. Wüthrich, Snjezana Cicvara, Christa Booy, Urs Widmer and Ulrich Binswanger

Division of Nephrology, Department of Medicine, University Hospital, Zürich, Switzerland



   Abstract
 Top
 Abstract
 Introduction
 Subjects and methods
 Results
 Discussion
 References
 
Background. Recently, a polymorphism at position 825 (C->T) of the cDNA that encodes the ß3 subunit of heterotrimeric G proteins (Gß3) was found to be associated with essential hypertension. The T allele leads to the formation of a truncated splice variant (Gß3-s) with enhanced activity, promoting hypertension. We examined whether the T allele had an influence on blood pressure (BP) and early renal function after renal transplantation.

Methods. We determined the Gß3 genotype and T allele frequencies in renal transplant patients and examined associations with BP, BP medications, and renal function in the first year after transplantation.

Results. In renal transplant recipients (n=216) the frequency of the T allele was marginally increased (0.34 vs 0.29) compared with normal healthy blood donors (n=163). Age, sex and body mass index were similar in patients with the CC, CT and TT genotype. BP, number of BP medications, and serum creatinine levels were also similar for the three genotypes within the first year after transplantation. Significantly more patients with the TT genotype (48%) had glomerulonephritis as the underlying renal disease, compared with the CT (29%) and CC (27%) genotypes.

Conclusions. The T allele of Gß3 does not have a negative impact on BP and early renal function in recipients of a renal allograft. The T allele might play a role in the pathogenesis of chronic glomerulonephritides.

Keywords: blood pressure; 825C/T polymorphism; G-protein subunit ß3; renal function; renal transplant; T allele



   Introduction
 Top
 Abstract
 Introduction
 Subjects and methods
 Results
 Discussion
 References
 
Enhanced signal transduction via pertussis-toxin-sensitive G proteins has been demonstrated in selected patients with essential hypertension [1]. This may lead to the increased activity of the Na+/H+ exchanger NHE-1, which has been documented in patients with essential hypertension [2]. Recently, a C->T polymorphism at position 825 of the gene has been identified for one of the G protein subunits, Gß3 [3]. This polymorphism is located in exon 10 of the Gß3 gene. The T allele is associated with the occurrence of a splice variant of Gß3 in which 123 nucleotides are deleted in the proximal exon 9. This in-frame deletion causes loss of 41 amino acids, altering the three-dimensional structure of the corresponding trimeric G protein. The truncated Gß3 molecule (Gß3-s) is associated with a gain of function. It has been suggested that the truncated splice variant (Gß3-s) could be promoting enhanced Na+/H+ exchange and hypertension, although the link between Gß3 and Na+/H+ exchange has yet to be defined at a molecular level.

The gene frequency of the T allele is increased in a population of hypertensive subjects (0.31) compared with a normotensive control population (0.25) [3]. It has therefore been postulated that the C825T polymorphism could play a significant role in the pathogenesis of essential hypertension.

We were interested to analyse the impact of the Gß3 T allele on BP control in a population of renal transplant recipients. We therefore determined the Gß3 genotype from 163 normal blood donors and from 216 renal transplant patients.



   Subjects and methods
 Top
 Abstract
 Introduction
 Subjects and methods
 Results
 Discussion
 References
 
Patients
We obtained blood for DNA extraction from a population of 163 normal healthy blood donors and from 216 consecutive recipients of a renal transplant. Patients had been transplanted with a kidney allograft from a cadaveric donor (n=191, 12 of which had been combined with a pancreas transplant) or from a living-related donor (n=25) between 1996 and 1999. Patient's data were collected by review of their medical charts. In particular, blood pressures (BP), the number of BP medication, and serum creatinine values were recorded at 3-month intervals for the first year after transplantation.

Genotyping of Gß3 polymorphism
The DNA was isolated from whole blood using the QIAamp® blood midi kit (Qiagen AG, Basel, Switzerland). The DNA was amplified by polymerase chain reaction as originally described by Siffert et al. [3]. Ten microlitres of the reaction was digested with 2.5 U of BseDI overnight at 55°C in a total volume of 20 µl. The digested reaction volume was then separated on a 2.5% Nusieve agarose gel. After staining with 0.5 µg/ml ethidium bromide the gel was visualized under UV illumination and photographed. The 268-bp fragment corresponds to the TT genotype (no restriction), the CC genotype generates bands of 116 and 152 bp (complete restriction). The heterozygous CT genotype is characterized by bands at 116, 152 and 268 bp.

Statistical analysis
Data are given as mean and standard deviation (SD). Frequencies of the alleles and genotypes were counted and were compared by the use of the {chi}2 test with the values predicted under the assumption of a Hardy– Weinberg equilibrium in the samples. Genotype and allele frequencies were compared between normal blood donors and renal transplant recipients also using the {chi}2 statistics.



   Results
 Top
 Abstract
 Introduction
 Subjects and methods
 Results
 Discussion
 References
 
First we analysed the genotype distribution and the Gß3 allele frequencies in normal healthy blood donors (n=163) and compared the values to the renal transplant recipients (n=216). Table 1Go demonstrates that there was a slight increase in the percentage of transplant recipients with the TT genotype (4.5% increase) and also a slightly higher T allele frequency (5% increase) which was not statistically significant. Genotype frequencies complied with the Hardy– Weinberg equilibrium in both populations.


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Table 1. Genotype and allele frequencies of the Gß3 C825T alleles

 
When stratifying the genotype and allele frequencies according to the original renal disease, we found an increased percentage of the TT genotype and T allele in patients with glomerular diseases (Table 2Go). In the 27 patients with the TT genotype, 48% had glomerulonephritis (GN) as the underlying disease (including chronic GN, focal and segmental glomerulosclerosis, membranoproliferative GN, and IgA nephropathy). This percentage amounted only to 29% for the CT (n=94) and 27% for the CC genotype (n=95) (P=0.034). The increased frequency of the T allele in these patients may therefore indicate a possible role in the development of glomerular diseases.


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Table 2. Subgroup analysis of the C825T polymorphism in the renal transplant population according to original renal disease (%)

 
We then analysed basic patient characteristics according to the different genotypes. Table 3Go shows that the Gß3 genotype was not significantly associated with age, sex, height, weight, and body mass index. We also examined whether Gß3 had an influence on BP and use of BP medication in the renal transplant population. Table 4Go demonstrates that there was no significant difference in the systolic, diastolic and mean BP after renal transplantation. Twelve months after transplantation the percentage of patients needing BP medication was similar, amounting to 86% for CC, 89% for CT and 74% for TT genotypes (P=n.s.). Table 4Go also demonstrates that the mean number of BP medication needed to control post-transplantation hypertension was similar for the three genotypes. Thus, the Gß3 genotype does not appear to promote hypertension in renal transplant recipients.


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Table 3. Correlation between Gß3 genotype and age, sex, and BMI

 

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Table 4. Influence of Gß3 genotype on post-transplantation BP and use of BP medication

 
Analysing the renal function within the first year after transplantation we also found no association between serum creatinine and the different Gß3 genotypes. Table 5Go shows that renal function was excellent in all three groups. Values tended to be even slightly lower for the TT genotype, but this was not statistically significant. We also examined whether the immunosuppressive regimen was different in the three genotypes, but we could not find any difference (data not shown).


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Table 5. Lack of influence of Gß3 genotype on post-transplantation renal function

 



   Discussion
 Top
 Abstract
 Introduction
 Subjects and methods
 Results
 Discussion
 References
 
In several studies it has been shown that the T allele of Gß3 is associated with the occurrence of hypertension [35]. It has been postulated that the truncated Gß3-s protein, which results from the replacement of C by T at position 825, could be causing hypertension via enhanced signalling through pertussis-sensitive G proteins [3]. It has also been suggested that the increased G protein signalling is linked to increased Na+/H+ exchange, although the relation between G protein signalling, increased Na+/H+ and the development of hypertension has not been defined precisely.

Hypertension is a frequent problem after renal transplantation [6,7]. Close to 90% of our patients were hypertensive after transplantation, needing one ore more drugs to control BP. In our study we fail to demonstrate an effect of the Gß3 T allele on BP after transplantation, and the T allele did also not influence the need for BP medication in our transplant population. This would suggest that enhanced G-protein signalling does not play a major role in the pathogenesis of hypertension in the post-transplant setting. Hypertension after renal transplantation is frequently multifactorial, and various other factors such as the volume status or the immunosuppressive regimen (steroids, calcineurin antagonists) could play an overriding role.

There are other studies that have also failed to demonstrate a significant role of the T allele in human hypertension, due perhaps to differences in the genetic background or due to age-specific effects [8,9]. In fact the effect of Gß3 might be restricted to older patients with low-renin essential hypertension as pointed out by Schunkert et al. [10]. While confirming the association of Gß3 and hypertension, Beige et al. [5] also failed to demonstrate an effect of the T allele on the level of systolic and diastolic BP and the number of BP medications in patients with essential hypertension. It therefore appears that Gß3 does not influence the level of hypertension or the use of BP medication in patients with already established hypertension.

We also show that the T allele of the Gß3 protein does not have a negative impact on early renal function. Serum creatinine levels were comparable for the CC, CT and TT genotypes in the first year after transplantation. This is in agreement with a recently published study examining the Gß3 polymorphism in kidney donors and recipients, although follow-up was shorter in our study [11]. Interestingly, in that study the donor but not the recipient T allele was found to influence graft survival, suggesting that altered signalling via pertussis-sensitive G proteins could promote the development of chronic rejection.

Our data demonstrate that the overall genotype distribution of the 825C/T polymorphism is not significantly altered in a population of renal transplant recipients when compared with a population of normal blood donors. In the subgroup of patients with glomerular diseases, however, the T allele was significantly enriched, and GN was the most frequent underlying renal disease in patients with the TT genotype. This finding has also been documented by Beige et al. [11]. The pathophysiological significance of this association remains to be defined. One pathophysiological link could involve increased chemotaxis for individuals carrying the T allele, as a recent study has demonstrated enhanced fMLP-stimulated chemotactic activity for neutrophils with the T allele [12]. Furthermore, enhanced chemotaxis of human neutrophils in response to interleukin-8 was also found in individuals with the CT or TT genotype [13].

At present there is only limited information available regarding the association of the T allele with renal disease. No significant association was found with diabetic nephropathy in type I diabetes mellitus [14], whereas the T allele frequency was found to be elevated in type II diabetics on dialysis [15]. Clearly, the impact of the Gß3 polymorphism on the development of various types of renal disease needs to be investigated in larger and more homogeneous population samples.

In summary, we failed to demonstrate a significant association of the 825C/T polymorphism of Gß3 with the occurrence of renal disease in a large population of renal patients with status post-transplantation. Furthermore, we found no influence of the T allele on BP and BP medication as well as early (<1-year) renal function. Long-term follow-up of these patients is planned, to examine whether the recipient T allele plays a role in BP control and in the development of chronic rejection.



   Acknowledgments
 
RPW is the recipient of a SCORE-A career development award by the Swiss National Science Foundation (grant no. 32–38821.93). We thank V. Anukege and R. Russi for valuable technical assistance.



   Notes
 
Correspondence and offprint requests to: Rudolf P. Wüthrich, Division of Nephrology, Kantonsspital, Rorschacherstrasse 95, CH-9007 St Gallen, Switzerland. Back



   References
 Top
 Abstract
 Introduction
 Subjects and methods
 Results
 Discussion
 References
 

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Received for publication: 20. 9.99
Revision received 22. 5.00.



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