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Clinical Trial Summary

The current protocol aims to investigate the impact of the propionate ester in conjugation with restricted diet on appetite and weight loss.


Clinical Trial Description

DIET AND OBESITY:

Obesity has reached epidemic proportions worldwide. In the United Kingdom, 58% of adult women and 65% of adult men are either overweight or obese (Health and Social Care Information Centre 2014), with the expectation that rates will increase (Ng et al. 2014). Obesity, mainly caused by a chronic positive energy balance, is a known risk factor that contributes to the development of type 2 diabetes and cardiovascular diseases, and the subsequent morbidities and mortalities (Kopelman 2007). A positive energy balance is inevitable with the composition of current western diet that contain refined (fibre-depleted) carbohydrates that are consumed quickly, and have minimal effects on long-term satiety (Cleave 1974; Heaton 1973).

NONDIGESTIBLE CARBOHYDRATES:

The quality and quantity of diet has changed dramatically over the last fifty years. Of which, carbohydrates have the most significant changes; from unprocessed fruits and vegetables based carbohydrates to more processed cereal based ones (Cordain et al. 2005). Epidemiological studies have shown that, as a result, ancestral diets had greater amounts of Non-Digestible Carbohydrates (NDC) than modern diets (>100g/day compared to <15g/day) with the inclusion of more indigestible intact cell wall plant material, such as tubers, grasses and sedges (Eaton 2006). A strong association has been established between increased weight gain with decreased NDC intake (Liu et al. 2003). Furthermore, increasing intake of NDC have shown to induce satiety and improve body composition in animals (So et al. 2007) and humans (Bouché et al. 2002).

LOW CALORIC HIGH NDC DIET IN LOSING WEIGHT Applying energy-restricted diets is one of the first steps to treat obesity. However, weight regain in weight maintenance period could happen due to resting energy expenditure reduction and lean mass loss. The inclusion of specific foods to the nutritional intervention is being investigated in order to produce persistent weight losses (Abete et al. 2008). It was suggested earlier that the addition of high fibre NDC foods to a hypocaloric diet would help reducing the incidence of metabolic syndrome and increasing the dietary compliance (Hermana et al, 2011). The high fibre content in combination with a low glycemic index diet, can both result in higher satiety effects with an increased mitochondrial oxidation, all favour weight loss.

PROPIONATE AND THE FFAR2 RECEPTOR:

Production of short chain fatty acids (SCFA) is the main by-product of NDC colonic fermentation (Pawlak et al. 2004). Of them, colonic propionate was found to play a critical role directly in the colon and systematically after its absorption into the circulation (Wong et al. 2006). Free Fatty Acid Receptor 2 (previously known as orphan G-coupled Protein Receptor 43) has been discovered to has high affinity to propionate (Brown et al. 2003). It is expressed on the distal ileum and colon L-enteroendocrine cells (Karaki et al. 2008), adipocytes and certain monocytes lineage (Hong et al. 2005).

THE ROLE OF PROPIONATE IN GUT HORMONE RELEASE AND APPETITE REGULATION:

The L-enteroendocrine colonic cells are responsible of secreting anorexic gut hormones (PYY and GLP-1) physiologically in response to food. These hormones are capable of inducing satiety through signalling the brain appetite centre (Murphy & Bloom 2006). Propionate-induced FFAR2 activation have found to cause the release of these hormones in vitro. Moreover, NDC ingestion was found to stimulate the release of these hormones in animals, resulting in decreasing food ingestion (Delzenne et al. 2005). Propionate was shown to replicate the same effects in further studies, suggesting the owning of the beneficial effects of NDC on appetite and gut hormones to propionate production.

SHORT CHAIN FATTY ACID ESTER:

Administering NDCs that promote the production of propionate is an attractive way to increase the level of propionate over an extended period of time. However, due to variability of the gut microbita activity, administering high proportions (≥ 35g/d) of dietary fibres in human diets to increase colonic propionate does not reliably or predictably provide the same SCFA levels in colon or systemically (Cummings 1981). Oral propionate supplementation is another method, but unfortunately its short plasma half-life, poor palatability, and the fact that its main absorption happens in the small intestine limit its use as a food supplement (Frost et al. 2003).

A novel system has been developed by Dr Douglas Morrison, (Scottish Universities Environmental Research Centre (SUERC)). This molecule of inulin (β(2-1) linked polymer of fructose) carrier with an ester linked to propionate (propionate ester) was demonstrated to reliably and reproducibly increase colonic propionate while prevent the side effects of NDC (Chambers et al. 2015). Thus, propionate is only released when the carrier molecule inulin is fermented by colon microflora, which was estimated to be 180 minutes post-ingestion. (Chambers et al. 2014). Chambers et al. (2015) were able to show that 10g of Inulin-Propionate Esters (IPE) has the ability to deliver 2.4g of propionate to the colon, that is an increment of 2.5-fold of propionate production in the colon, a level that is achieved only with 60g/d via traditional dietary fibre supplementation. The same group has also demonstrated that while the acute administration of this supplement caused increments in Plasma GLP-1 and PYY and reduced food ingestion, the long term (24 weeks) supplementation of propionate ester significantly reduced body weight gain and the development of abdominal adipose tissue (Chambers et al. 2014). Interestingly, none of the long term participants reported any side effects from the intake of propionate esters. Increasing colonic propionate is, therefore, one of the attractive strategies to manage weight and diabetes risk factors.

The current protocol aims to investigate the impact of the propionate ester in conjugation with restricted diet on appetite and weight loss. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03322514
Study type Interventional
Source Imperial College London
Contact
Status Completed
Phase N/A
Start date March 29, 2017
Completion date November 11, 2017

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