Molecular Mechanisms of Peritoneal Dialysis–Induced Microvascular Vasodilation
الملخص
Peritoneal dialysis (PD) solutions dilate microvessels
by undefined mechanisms. This vasodilation
directly affects ultrafiltration and solute exchange
during a PD dwell and is thought to account for the
variable mass transfer area coefficient for small
solutes during a glucose-based hypertonic dwell. We
hypothesized that PD-mediated vasodilation occurs
by endothelium-dependent mechanisms that involve
endothelium energy-dependent K+ channels (KATP),
adenosine A1 receptor activation, and NO release.
We used intravital videomicroscopy to study 3
levels of microvessels (A1 inflow arterioles about
100 μm diameter to pre-capillary A3 arterioles 10 –
15 μm diameter) in the terminal ileum of anesthetized
rats under control conditions in vivo in a tissue
bath. Ileum was bathed with hypertonic mannitol or
2.5% glucose-based PD solution (Delflex: Fresenius
Medical Care North America, Waltham, MA, U.S.A.)
with or without topical application of individual or
combined specific inhibitors of the endotheliumdependent
dilation pathways: NO (L-NMMA),
prostaglandin I2 (mefenamic acid), endothelium hyperpolarizing
factor (glibenclamide), and adenosine
A1 receptor antagonist (DPCPX).
The mannitol and PD solutions induced rapid and
sustained peritoneal vasodilation whose magnitude
depended on microvascular level and osmotic solute.
Combined inhibition of endothelium-dependent
dilation pathways completely abolished the mannitolinduced
hyperosmolality-mediated dilation at all
microvascular levels, but selectively eliminated the PD
solution–mediated A3 dilation. The KATP and adenosine
receptor antagonists, individually or combined,
remarkably attenuated dilation in the smaller pre-capillary
arterioles; NO inhibition, alone or combined with
KATP and adenosine receptor antagonists, eliminated
the PD solution–induced dilation. The cyclooxygenase
pathway is not involved in PD-induced dilation.
Solutions for PD dilate the visceral peritoneal
microvasculature by endothelium-dependent
mechanisms, primarily the NO pathway. Adenosine
receptor–activated NO release and KATP channelmediated
endothelium hyperpolarization significantly
contribute to vasodilation in the smaller peritoneal
pre-capillary arterioles.
DOI/handle
http://hdl.handle.net/10576/3829المجموعات
- العلوم الصحية - كلية الآداب والعلوم (قبل 2016) [151 items ]