Contrast-induced
nephropathy (CIN) is a leading cause of hospital-acquired
acute kidney
injury, particularly in diabetic patients. Previous studies have shown renoprotective
effects of glucagon-like
peptide-1
(GLP-1)
signalling; however, its role in CIN remains
unexplored. This study investigates the prophylactic effect of exendin-4,
a GLP-1R
agonist,
against CIN in a rat model mimicking both healthy and diabetic conditions. Animals
were randomly divided into 7 groups: a control sham group (n = 8), and 2 identical sets
of 3 disease groups, one received exendin-4
before exposure to contrast medium (CM),
while the other served as untreated control. The 3 disease groups represented diabetes
(n = 8), CIN (n = 8), or diabetes and CIN combined (n = 8). Untreated groups showed deteriorating
renal function as indicated by significantly higher levels of serum creatinine
and blood urea nitrogen, malondialdehyde, and endothelin-1
and caspase-3
expression
compared to the sham control group. This was accompanied by a significant decrease in
tissue reserves of reduced glutathione, superoxide dismutase, nitrate and endothelin
nitric oxide synthase as well as deteriorating renal histology. The CM-induced
changes
in diabetic rats indicate impaired renal function, oxidative stress, vascular dysfunction,
and apoptosis, and were significance higher in intensity compared to non-diabetic
rats.
Pretreatment with exendin-4
ameliorated all the aforementioned CM-induced
nephropathic
effects independent of the glycemic state. To our knowledge, this is the first
study describing the prophylactic renoprotective effects of exendin-4
against CIN.
With the current pharmaceutical use of exendin-4
as a hypoglycaemic agent, the GLP-1R
agonist becomes an interesting candidate for human clinical trials on CIN prevention. |
