Hypertension Clinical Trial
Official title:
Differential Effects of Uric Acid and Xanthine Oxidoreductase on Endothelial Function and Oxydative Stress
Cardiovascular disease is the leading cause of mortality worldwide. Endothelial dysfunction
(ED) is the main mechanism which leads to atherosclerosis, where the balance between pro and
antioxidant factors results in a decreased nitric oxide (NO) bioavailability. Xanthine
OxidoReductase (XOR) is one of the main generators of reactive oxygen species (ROS). Uric
acid (UA), a major antioxidant in human plasma and end product of purine metabolism, is
associated with cardiovascular diseases since many years; however the precise mechanisms
which relate UA to ED are still not well understood.
The purpose of this study is to unravel the XOR and UA pathways involved in ED. Three groups
of participants (young (< 40 y) male healthy participants [1] ; male and female helthy
participants (40 to 65 y) [2] and patients with primary hypertension [3]) will be exposed to
febuxostat (a strong and selective XOR inhibitor), or recombinant uricase (which oxidizes UA
into allantoin) to vary UA levels and concomitantly control for confounding changes in XOR
activity. Oxidative stress will be estimated by several markers. Endothelial function will be
assessed by a laser Doppler imager in the presence of hyperthermia and endothelium
stimulators. This study is specifically designed to untie the respective effects of UA and
XOR pathways on oxidative stress and endothelial function in humans.
The investigators will test the following hypothesis:
1. An extremely low level of uric acid after uricase administration induces endothelial
dysfunction and oxydative stress,
2. A specific XO inhibitor limits unfavourable effects of the serum UA reduction elicited
by uricase administration,
3. Endothelial function and oxydative stress are further improved with febuxostat as
compared to placebo,
4. All these observations are more marked in hypertensives then in older participants than
in young healthy subjects.
The goals of the research protocol are to clearly untie the respective roles of uric acid
(UA) and xanthine oxidoreductase (XOR) pathways on endothelial function and oxidative stress
in humans.
UA represents the end-product of purine metabolism due to the loss of uricase 15 million
years ago in humans. The selective advantage of this mutation could be the strong antioxidant
effect of UA (which represents more than 60% of the antioxidant plasmatic capacity). Many
recent epidemiological studies have showed a J-shape association between UA levels and
cardiovascular risk. An UA level lower than 3 mg/dl could be damageable due to the loss of
the antioxidant properties of UA. In contrast, hyperuricemia is associated with an increased
inflammation, insulin resistance, ED, platelet aggregation, left ventricle hypertrophy,
arterial vasodilatation impairment, aortic stiffness and intima-media thickness. However, the
association between UA and cardiovascular disease remains controversial because whether UA is
an independent risk factor for these illnesses is unclear.
Interventional studies:
Because the above-mentioned associations do not prove causation, several authors designed
interventional studies with the purpose to modify UA levels and determine if this affected
endothelial function and oxidative stress. The main limitation of these studies is that they
were unable to untie the effects of the synthesis of UA, of UA itself and of the activity of
XOR, on ROS production and endothelial function in humans.
This is because:
1. serum UA is a powerful plasmatic antioxidant,
2. but transformation of hypoxanthine to xanthine and xanthine to UA by XO generates
intracellular ROS,
3. moreover, in endothelial cells, UA reduces NO bioavailability by many ways (L-arginine
blockade and degradation, increased superoxide anion production, NOS inhibition, reduced
NOS genes expression and direct NO scavenging),
4. in addition, UA forms crystals in the endothelium wall which create a pro-inflammatory
and thrombotic state, increases smooth muscle cells proliferation and also insulin
resistance and inflammation in adipocytes,
5. finally, and most importantly, XO is inhibited by physiologic levels of UA (which acts
as an uncompetitive XO inhibitor).
In summary, the present protocol aims at testing the following hypothesis:
1. Experimental serum UA variations are correlated with endothelial function and oxydative
stress markers : an extremely low level after uricase administration induces ED and
oxydative stress,
2. A specific XO inhibitor (FX) limits unfavourable effects of the serum UA reduction
elicited by uricase administration, since this will hamper the feedback activation of XO
by a low UA level,
3. Endothelial function and oxydative stress are further improved with FX as compared to
placebo, because the first experimental condition results in a XO blockade,
4. All these observations are more marked in hypertensive patients then in older
participants than in young healthy subjects.
Data collection
Data collection from the participants will be collected informatically through a case report
form. The names and personnal data from the patients will be kept in a secret place or in a
password-protected file. All the data will be destroyed at the end of the study (including
blood and urine samples).
Statistical analysis
Statistical analysis will be performed using SPSS. Baseline characteristics will be compared
using a Student t test. Two-way repeated-measures ANOVAs will be used to detect significant
changes between sessions and groups. Statistical significance is assumed when p is <0.05.
Sample size is not possible due to the lack of data of the effect of acute hypouricemia. We
estimate a minimum of 15 participants in each group.
Specific test will be used for non gaussian variables. Correlation test will be used if
necessary according the results of the first test.
Placebo-corrected values and comparisons of the delta will be used too.
Subgroups analyses will be performed for the study of population 2 and 3 (enrolled together).
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