Clinical Trials Logo

Clinical Trial Summary

Several free fatty acids receptors (FFARs) have been discovered. These have been implicated in metabolic processes and inflammation. Consequently, these receptors have attracted interest as targets for the treatment of metabolic and inflammatory diseases, including obesity and T2D. Two of these FFARs (FFAR1, FFAR4), which is activated by specific free fatty acids (FFAs), is expressed on enteroendocrine cells, pancreatic beta-cells and adipocytes. They have been linked to 1) increased GLP-1 secretion and hence the incretin-mediated increase in glucose-stimulated insulin secretion (GSIS) and suppression of glucagon secretion, 2) a direct positive effect on GSIS, 3) reduced inflammation and 4) improved insulin sensitivity. These functions and the abundance of fatty acids in food suggests that FFARs can be considered as nutrient sensing regulators of metabolism. Roux-en-Y gastric bypass (RYGB), frequently results in immediate beneficial effects on glucose metabolism and often complete remission of T2D. This may in part be explained by increased GLP-1 levels after surgery. It appears that the effect depends on nutrient delivery directly to the lower parts of the small intestine. It is possible that the RYGB effects are partly due to enteroendocrine stimulation of FFAR1 and perhaps FFAR4 by direct nutrient delivery, i.e. FFA release in the lower intestines. Pinolenic acid from pine nuts has been shown to be a potent dual FFAR1/FFAR4 agonist.

Based on these findings the investigators have planned a number of human intervention studies in order to investigate 1) the optimal oral formulation of pine nut oil 2) whether it is possible to mimic the beneficial effects observed after RYGB, 2) if it is possible to increase meal-related GLP-1 secretion by stimulating FFAR1/FFAR4 on enteroendocrine cells causing improved GSIS and increased satiety and 3) enhancement of GSIS by directly stimulating FFAR1 (and perhaps FFAR4) on beta-cells.


Clinical Trial Description

Type 2 diabetes (T2D) is one of the greatest health challenges worldwide. The disease is strongly associated with obesity, and develops via pre-diabetic conditions, where insulin resistance and low-grade inflammation play an important role, to T2D, where failure of the pancreatic beta-cell to compensate for insulin resistance causes hyperglycemia. According to recent estimates, 350 million people worldwide suffer from diabetes. The disease typically leads to many years of reduced quality of life due to side complications such as cardiovascular disease (CVD), blindness, kidney failure and amputations. T2D is estimated to be the 4th leading cause of death in the Western world with 5-10 years reduced life expectancy. It is generally agreed that a healthy diet and increased physical activity are effective in preventing T2D, and also may help to achieve a better control of T2D and reduce risk of CVD. There is, however, not a general agreement as to what a healthy diet constitutes.

During the last decade, several cell surface receptors that respond to free fatty acids (FFA) have been discovered. These free fatty acid receptors (FFARs) belong to the superfamily of G protein-coupled 7-transmembrane receptors (GPRs), and have all been implicated in metabolic processes, energy expenditure and inflammation. Consequently, several of the receptors have attracted interest as potential targets for the treatment of metabolic and inflammatory diseases, including obesity and T2D.

FFAR1 (GPR40), which is activated by long-chain FFA, is highly expressed in pancreatic β-cells and increases glucose-stimulated insulin secretion (GSIS) [4]. There is evidence that FFAR1 is also expressed in intestinal enteroendocrine cells, where it promotes secretion of incretin hormones such as GLP-1 and 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 cause a loss of weight. The published phase II clinical trial with the selective FFAR1 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 T2D.

FFAR4 (GPR120), which is activated by unsaturated long-chain FFA, is expressed in the gastrointestinal system, adipose tissue, and β-cells, and is reported to promote GLP-1 secretion from intestinal cells, to counteract inflammation and to increase insulin sensitivity in adipose tissue. Notably, dysfunctional FFAR4 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. This is supported by indications that unsaturated FFA revert diet-induced hypothalamic inflammation through FFAR4, and thereby reduce body weight in diet-induced obese (DIO) mice. These FFARs are thus expressed in different tissues in the body where they potentially can affect metabolic and inflammatory conditions such as T2D and obesity.

These functions combined and the abundance of fatty acids in food suggests that FFARs can be considered as nutrient sensing regulators of metabolism.

Roux-en-Y gastric bypass (RYGB) surgery, often used to treat severe obesity, frequently results in immediate beneficial effects on glucose metabolism in T2D, often with complete remission. These effects are in part independent of the weight loss, but may be explained by a significant increase in GLP-1 levels immediately after surgery. Thus, it appears that the effect depends purely on delivery of nutrients and pancreatic juices directly to the lower parts of the ileum. Normally, FFA are 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 FFAR1 and perhaps FFAR4 by direct nutrient delivery, that is FFA release in the lower intestines. A hypothesis to be investigated in this PhD project is that delivery of a specific naturally occurring polyunsaturated FFA with proven high efficacy on both FFAR1 and FFAR4 directly to the lower intestines can mimic the beneficial effects observed after RYGB with less expense and fewer adverse effects.

Delivery of a higher load of unabsorbed FFA to the distal small intestine can be achieved by taking advantage of enteric coating that dissolves at pH >6.0, which is observed in the lumen of the distal jejunum, ileum and colon, and is independent of the colonic flora. This enteric coating technology is well established for delivering drugs to the ileum and colon. The potential positive effect of this principle was recently reported in a small cohort of patients with T2D. Thus, 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 FFAR1 and/or FFAR4 by lauric acid in the distal gut.

As a part of the FFARMED project supported by the Danish Council for Strategic Research, a screening of 36 relevant FFA and their ability to act as FFAR1 and FFAR4 agonists in vitro have been carried out to identify the most potent naturally occurring dual FFAR1/FFAR4 agonist for clinical studies. Of these, the polyunsaturated fatty acid (PUFA), pinolenic acid showed a significantly higher efficacy than the others, and was therefore selected for further studies. To further support this choice, the effect of pinolenic acid has been 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 AUC-glucose, and peak-glucose levels when compared to control (corn oil). The efficacy was similar to that obtained with a pharmaceutical selective FFAR1 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 FFA, but not as TG, has been reported to increase secretion of GLP-1 and decrease appetite in overweight females. This supports previous results, and indicates that only purified pinolenic acid improved glucose metabolism in mice.

Hypotheses

As described above, the expression of FFAR1 and FFAR4 on intestinal enteroendocrine cells, pancreatic beta-cells and adipose tissue has been linked to 1) increased secretion of GLP-1 and hence the incretin-mediated increase in GSIS and suppression of glucagon secretion, 2) a direct positive effect on GSIS, 3) reduced inflammation, 4) improved insulin sensitivity and 5) increased energy expenditure. Based on the above findings, the investigators are performing a number of clinical trials using pinolenic acid derived from Siberian pine nuts as a naturally occurring dual FFAR1/FFAR4 agonist.

The investigators hypothesize that ingestion of a small amount of pinolenic acid given as enteric-coated pellets dissolved in the lower intestines will 1) increase meal-related GLP-1 secretion by stimulating FFAR1/FFAR4 on enteroendocrine cells causing improved GSIS and increased satiety, 2) enhance GSIS by directly stimulating FFAR1 (and perhaps FFAR4) on beta-cells, and 3) attenuate the low-grade inflammation seen in insulin resistant conditions such as obesity and T2D by stimulating FFAR4 on adipocytes.

Aims

To test the hypotheses, the aims of this project are to investigate:

1. The effect of enteric coated pellets of pinolenic acid (hydrolyzed pine nut oil) and placebo (corn oil) on tolerability, safety and levels of glycemia in five pilot studies of healthy individuals.

2. The acute effects of pinolenic acid on meal-induced changes in I) circulating levels of glucose, insulin, GLP-1, GIP and glucagon, II) plasma lipids and inflammatory markers, III) appetite ratings, and IV) substrate metabolism in patients with T2D and lean healthy and non-diabetic obese individuals.

3. The chronic effects of pinolenic acid given 3 times daily for 8 weeks on I) the incretin effect, II) GSIS, III) body composition, IV) lipids and inflammatory markers V) substrate metabolism and VI) markers of insulin resistance and inflammation in tissue biopsies (muscle and adipose tissue) in patients with T2D and non-diabetic obese individuals.

This registration covers the second of five planned pilot studies and investigates the difference in effect between pine nut oil and hydrolyzed pine nut oil on insulin, glucose and incretin hormones when administered acutely in combination with an oral glucose tolerance test. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03062592
Study type Interventional
Source Odense University Hospital
Contact
Status Completed
Phase N/A
Start date February 2016
Completion date April 2016

See also
  Status Clinical Trial Phase
Recruiting NCT04243317 - Feasibility of a Sleep Improvement Intervention for Weight Loss and Its Maintenance in Sleep Impaired Obese Adults N/A
Recruiting NCT04101669 - EndoBarrier System Pivotal Trial(Rev E v2) N/A
Terminated NCT03772886 - Reducing Cesarean Delivery Rate in Obese Patients Using the Peanut Ball N/A
Completed NCT03640442 - Modified Ramped Position for Intubation of Obese Females. N/A
Completed NCT04506996 - Monday-Focused Tailored Rapid Interactive Mobile Messaging for Weight Management 2 N/A
Recruiting NCT06019832 - Analysis of Stem and Non-Stem Tibial Component N/A
Active, not recruiting NCT05891834 - Study of INV-202 in Patients With Obesity and Metabolic Syndrome Phase 2
Active, not recruiting NCT05275959 - Beijing (Peking)---Myopia and Obesity Comorbidity Intervention (BMOCI) N/A
Recruiting NCT04575194 - Study of the Cardiometabolic Effects of Obesity Pharmacotherapy Phase 4
Completed NCT04513769 - Nutritious Eating With Soul at Rare Variety Cafe N/A
Withdrawn NCT03042897 - Exercise and Diet Intervention in Promoting Weight Loss in Obese Patients With Stage I Endometrial Cancer N/A
Completed NCT03644524 - Heat Therapy and Cardiometabolic Health in Obese Women N/A
Recruiting NCT05917873 - Metabolic Effects of Four-week Lactate-ketone Ester Supplementation N/A
Active, not recruiting NCT04353258 - Research Intervention to Support Healthy Eating and Exercise N/A
Completed NCT04507867 - Effect of a NSS to Reduce Complications in Patients With Covid-19 and Comorbidities in Stage III N/A
Recruiting NCT03227575 - Effects of Brisk Walking and Regular Intensity Exercise Interventions on Glycemic Control N/A
Completed NCT01870947 - Assisted Exercise in Obese Endometrial Cancer Patients N/A
Recruiting NCT05972564 - The Effect of SGLT2 Inhibition on Adipose Inflammation and Endothelial Function Phase 1/Phase 2
Recruiting NCT06007404 - Understanding Metabolism and Inflammation Risks for Diabetes in Adolescents
Recruiting NCT05371496 - Cardiac and Metabolic Effects of Semaglutide in Heart Failure With Preserved Ejection Fraction Phase 2