dc.description.abstract |
Bombesin receptor subtype-3 (BRS-3) is an orphan
G-protein-coupled receptor (GPCR) member of the bombesin
receptor family. Several studies have suggested an association
between obesity, alterations in glucose metabolism, diabetes
and the BRS-3 receptor. In this study, we focused on patients
simultaneously diagnosed with obesity and type 2 diabetes (OB/
T2D). The analysis of BRS-3 expression in the skeletal muscle
of these patients revealed a marked decrease in the expression of
BRS-3 at the mRNA (23.6±1.3-fold downregulation, p<0.0001)
and protein level (49±7% decrease, p<0.05) compared to the
normal patients (no obesity and diabetes). Moreover, in cultured
primary myocytes from patients with OB/T2D, the synthetic
BRS-3 agonist, [D-Try6
,¿-Ala11,Phe13,Nle14]bombesin6-14, signifi cantly increased the phosphorylation levels of mitogen-activated
protein kinase (MAPK), p90RSK1, protein kinase B (PKB)
and p70s6K. Specifically, the ligand at 10-11 M induced the
maximal phosphorylation of MAPKs (p42, 159±15% of the
control; p44, 166±11% of the control; p<0.0001) and p90RSK1
(148±2% of the control, p<0.0001). The basal phosphorylation
levels of all kinases were reduced (p<0.05) in the patients with
OB/T2D compared to the normal patients. Furthermore, the
BRS-3 agonist stimulated glucose transport, which was already
detected at 10-12 M (133±9% of the control), reached maximal
levels at 10-11 M (160±9%, p<0.0001) and was maintained at
up to 10-8 M (overall mean, 153±7%; p<0.007). This effect was
less promiment than that attained with 10-8 M insulin (202±9%,
p=0.009). The effect of the agonist on glycogen synthase a
activity achieved the maximum effect at 10-11 M (165±16% of
the control; p<0.0001), which did not differ from that observed
with higher concentrations of the agonist. These results suggest
that muscle cells isolated from patients with OB/T2D have
extremely high sensitivity to the synthetic ligand, and the effects
are particularly observed on MAPK and p90RSK1 phosphory lation, as well as glucose uptake. Moreover, our data indicate
that BRS-3 may prove to be useful as a potential therapeutic
target for the treatment of patients with OB/T2D |
es_ES |