Inflammation Clinical Trial
Official title:
The Effect of Moderate Alcohol Consumption on a Human in Vivo Model of Low-grade Systemic Inflammation in Young, Normal-weight Men
Rationale: High-density lipoprotein (HDL), which is consistently increased after moderate
alcohol consumption, is an abundant plasma lipoprotein that is generally thought to be
anti-inflammatory in both health and infectious disease. HDL binds and neutralizes the
bioactivity of potent bacterial remnants such as lipopolysaccharides (LPS) which stimulate
the host innate immune responses.
Primary objective: To explore whether prolonged moderate alcohol consumption affects in vivo
cytokine response after a low dose of LPS in young, normal-weight men.
Cytokine response in a human model of low-grade systemic inflammation Lipopolysaccharide
(LPS) or endotoxin is a constituent of the Gram-negative bacterial cell wall. It circulates
in the plasma of healthy human subjects at low concentrations (between 1 and 200 pg/mL).
Furthermore, the human gut is host to ~100 trillion organisms, which together contribute to
an enteric reservoir of ~1 g LPS (4).
Upon introduction in the bloodstream endotoxin binds to LPS-binding protein (LBP) and this
complex binds to CD14 on monocytes. CD14 does not have an intracellular domain but signals
through Toll-like receptor 4, leading eventually to activation of the transcription factor
NF-κB and to production of Tumor Necrosis Factor alpha (TNF-α,) and interleukin 6 (IL-6) and
a systemic inflammatory response.
Endotoxin administration to humans, when given in a low dose, is a well-established model of
systemic inflammation (5). The low dose of endotoxin elicits an acute mild systemic
inflammation with a significant and reproducible cytokine and leucocyte response without
increases in body temperature (2;3). This model thus resembles the levels reported in
chronic low-grade inflammatory conditions such as type 2 diabetes and arthrosclerosis.
High-density lipoprotein (HDL) is a group of lipoprotein particles which have the highest
density in the circulation. HDL has several anti-atherogenic effects, including the ability
to transport excess cellular cholesterol to the liver for excretion, to protect low-density
lipoprotein (LDL) against oxidation and to inhibit platelet aggregation. Besides its pivotal
role in protecting against atherosclerosis, accumulating evidence also suggest that HDL
possesses anti-inflammatory effects and plays an important role in modulating the
inflammatory response to lipopolysaccharides.
Although all lipoprotein classes have been demonstrated to bind LPS, when added to whole
human normal blood, it mainly binds to HDL (60%), in addition to LDL (25%) and VLDL (12%)
(6). In vitro, LPS bound to lipoprotein was 20- to 1000-fold less active than the unbound
form in inducing monocytes and macrophages to release cytokines (7). When transgenic mice
with 2-fold elevation of plasma HDL levels were injected with LPS, they had more LPS bound
to HDL, lower plasma cytokine levels, and improved survival rates compared with control mice
(8). In humans Ex vivo reconstituted HDL abolished the LPS-induced overproduction of
cytokines in patients with severe cirrhosis and controls (9) and intravenous infusion of
reconstituted HDL protected humans from the toxic effects of LPS (10).
It has never been studied whether the alcohol-induced increase in HDL could attenuate the
effects of LPS on cytokine response both ex vivo and in vivo. Given the fact that alcohol
induces an increase in HDL (1) and that HDL has LPS-neutralizing properties, it is
hypothesized that moderate alcohol consumption attenuates the LPS-induced cytokine response
of TNF-α and IL-6 in young, normal-weight men.
In addition, because HDL causes down regulation of CD14 expression in monocytes (10) and
because CD14 modulates the pro-inflammatory response to LPS (11), the effects of HDL on CD14
expression and expression of other genes related to inflammation will be determined in
monocytes over time after both in vivo and ex vivo LPS administration. Since HDL also
affects endothelial function (12;13) and since eicosanoids are important messengers during
systemic inflammatory processes (14) these markers will also be investigated.
;
Allocation: Randomized, Intervention Model: Crossover Assignment, Masking: Open Label, Primary Purpose: Basic Science
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