Obesity Clinical Trial
Official title:
Effects of Pine Nut and Olive Oil as FFA1/FFA4 and GPR119 Agonists on Glucose Tolerance in Healthy Overweight or Obese Subjects
Agonistic activation of fat metabolite responsive G-protein-coupled receptors (GPCR) has been
linked to improved glucose metabolism through increased glucose-stimulated-insulin-secreting
(GSIS) and incretin release, improved insulin sensitivity and reduced low grade inflammation.
In vitro studies have demonstrated that pinolenic acid (20% of pine nut oil) is a potent dual
agonist of two GPCRs: free fatty acid receptor-1 (FFA1, formerly GPR40) and free fatty acid
receptor-4 (FFA4, formerly GPR120). Moreover, pinolenic acid was able to improve glucose
tolerance in mice. G-protein-coupled receptor-119 (GPR119) is known to be activated by the
monoacylglycerol: 2-oleoylglycerol (2OG), which is a glycerol molecule attached to oleic acid
in the second position. Olive oil contains 61-80% oleic acid, and under digestion 2OG is
produced. 2OG has been shown to stimulate GLP-1 release in humans and interestingly, it has
recently been suggest that simultaneous activation of GPR119 and FFA1 acts in synergy and
enhances enteroendocrine GLP-1 secretion more than the summarized individual agonistic
activation. However, this remains to be evaluated in humans. The investigators hypothesize
that a combination of pinolenic acid and 2OG administered in delayed release capsules will
act in synergy and enhance 1) GLP-1 secretion by stimulating FFA1/FFA4 and GPR119 on
enteroendocrine cells causing improved GSIS and increased satiety and 2) enhance GSIS by
directly stimulating FFA1 and GPR119 on beta-cells.
Study aim: To investigate the acute effects of pinolenic acid combined with 2OG (olive oil)
versus pinolenic acid alone on changes in glucose tolerance, insulin, GLP-1, GIP and ghrelin
secretion, appetite and gastrointestinal tolerability in overweight and obese healthy humans.
During the last decade, several G protein-coupled receptors (GPCR) that respond to dietary
lipid metabolites including free fatty acids (FFAs) have been discovered. These receptors
have been implicated in metabolic processes and inflammation. Consequently, several of the
receptors have attracted interest as potential targets for the treatment of metabolic and
inflammatory diseases, including obesity and type 2 diabetes (T2D).
Free fatty acid receptor 1 (FFA1 or GPR40) is activated by long-chain FFAs and is highly
expressed in pancreatic β-cells, where it increases glucose-stimulated insulin secretion
(GSIS). FFA1 is also expressed on intestinal enteroendocrine cells, where it promotes
secretion of incretin hormones such as glucagon like peptide-1 (GLP-1) and glucose-dependent
insulinotropic peptide (GIP). GLP-1 is highly interesting for treatment of obesity and T2D
because of its ability to increase GSIS, enhance β-cell growth, increase insulin sensitivity,
reduce gastric motility, increase satiety and reduce body weight. The published phase II
clinical trial with the selective FFA1 agonist TAK-875 demonstrated high efficacy in reducing
plasma glucose without increased incidence of hypoglycemia, and has caused considerable
interest in the receptor as a new target for treatment of type 2 diabetes. Free fatty acid
receptor 4 (FFA4 or GPR120) is activated by unsaturated long-chain FFAs and is expressed in
the gastrointestinal system and adipose tissue. It is reported to promote GLP-1 secretion
from intestinal cells, to counteract inflammation and to increase insulin sensitivity in
adipose tissue. Notably, dysfunctional FFA4 was recently connected to the development of
obesity in both mice and humans. This has considerably increased the interest on the receptor
as a target for obesity and metabolic diseases.
Another GPCR receptor: G-protein-coupled receptor-119 (GPR119), which reacts to different
degradation products of triacylglycerol including monoacylglycerols, has similar functions as
FFA1 and FFA4. It is also expressed in enteroendocrine cells in the gastrointestinal tract
and on pancreatic β-cells, where it stimulates GLP-1 secretion and GSIS, respectively.
In summary, these receptors are expressed in different tissues in the body where they
potentially can affect metabolic and inflammatory conditions such as type 2 diabetes and
obesity.
Prior to this study, an in in vitro screening of 36 relevant FFAs and their ability to act as
FFA1 and FFA4 agonists was carried out to identify the most potent naturally occurring dual
FFA1/FFA4 agonist for clinical studies. Of these, the polyunsaturated fatty acid, pinolenic
acid showed the highest efficacy and a good potency on both receptors, and was therefore
selected for further studies.
To further support this choice, the effect of pinolenic acid was tested using a small dose
(100 mg/kg) given 30 min prior to an oral glucose tolerance test (OGTT) in mice.
Convincingly, purified pinolenic acid significantly improved glucose tolerance by reducing
OGTT glucose levels when compared to control (corn oil). The efficacy was similar to that
obtained with a pharmaceutical selective FFA1 agonist (TUG-905). Pinolenic acid is a fatty
acid contained in Siberian Pine nuts, Korean Pine nuts and the seeds of other pines. The
highest percentage of pinolenic acid (~20%) is found in Siberian Pine nuts and the oil
produced from them. Korean Pine nut oil given as hydrolyzed FFAs, but not as triglycerides,
has been reported to increase secretion of GLP-1 and decrease appetite in overweight females.
This supports the indication that purified pinolenic acid may be superior in improving
glucose metabolism.
GPR119 is activated by different endogen ligands, one of them being the monoacylglycerol
2-oleoylglycerol (2OG), which is a glycerol molecule attached to oleic acid in the second
position. Olive oil contains 61-80% oleic acid, and under digestion of 5 ml olive oil,
approximately 2g 2OG is produced. 2OG has been shown to stimulate GLP-1 release in humans and
interestingly, it has recently been suggest that simultaneous activation of GPR119 and FFA1
acts in synergy and enhances enteroendocrine GLP-1 secretion more than the summarized
individual agonistic activation. However, this remains to be evaluated in humans.
Roux-en-Y gastric bypass (RYGB) surgery, used to treat severe obesity, frequently results in
immediate beneficial effects on glucose metabolism in type 2 diabetes, often with complete
remission. These effects are in part independent of weight loss, but may be explained by a
significant increase in GLP-1 levels immediately after surgery. Thus, it appears that the
effect depends on the delivery of nutrients to the lower parts of the intestine. Fat
metabolites are normally rapidly absorbed in the upper parts of the gastrointestinal tract.
It is therefore possible that the RYGB effects are partly due to enteroendocrine stimulation
of FFA1, GPR119 and perhaps FFA4 by direct nutrient delivery, that is, delivery of fat
metabolites to the lower intestines. A hypothesis to be investigated in this study is that
the delivery of pinolenic acid and 2OG to the lower intestines can mimic the beneficial
effects observed after RYGB with less expense and fewer adverse effects.
Delivery of nutrients beyond the proximal small intestine can be achieved by the use of
delayed release capsules. The potential positive effect of this principle was recently
reported in a small cohort of patients with T2D. Where, delivery of small amounts of lauric
acid (a C12 fatty acid) to the distal gut using enteric-coated pellets stimulated GLP-1
secretion and lowered postprandial glucose levels in response to meals. No chronic effects
where tested in this study. Although not suggested by the authors, the increased release of
GLP-1 could involve direct stimulation of FFA1 and/or FFA4 by lauric acid in the distal gut.
Hypotheses: As described, the expression of FFA1, FFA4 and GPR119 on intestinal
enteroendocrine cells and pancreatic beta-cells has been linked to 1) increased secretion of
GLP-1 and GIP hence the incretin-mediated increase in GSIS and 2) a direct positive effect on
GSIS. The investigators hypothesize that a combination of pinolenic acid and 2OG administered
in delayed release capsules will act in synergy and 1) enhance GLP-1 secretion by stimulating
FFA1/FFA4 and GPR119 on enteroendocrine cells causing improved GSIS, 2) enhance GSIS by
directly stimulating FFA1 and GPR119 on beta-cells and 3) increase satiety.
To test the hypotheses, the aim of this project is to investigate the acute effect of
pinolenic acid (hydrolyzed pine nut oil) combined with 2OG (olive oil) versus pinolenic acid
(hydrolyzed pine nut oil) alone on glucose tolerance, insulin, GLP-1, GIP and ghrelin
secretion, appetite and gastrointestinal tolerability in overweight and obese healthy humans.
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