Aminostatic hypothesis

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In 1956, Mellinkoff proposed the aminostatic hypothesis, stimulated by the observation that when normal individuals ingest protein, appetite diminishes as the serum amino acid concentration rises and vice versa.[1] He believed this was due to a satiety centre in the brain, sensitive to serum amino acids levels, that caused a suppression of hunger once the serum levels reached a certain point.


Experimental Evidence

-experimental evidence has agreed with the aminostatic hypothesis -they have found that high protein diets act on satiety and thermogenesis

Science behind the theory

© Image: Ashleigh Fraser
Indirect Pathways.

Experimental evidence supports the aminostatic hypothesis but the complex homeostatic mechanisms between the peripheral organs and the central nervous system which cause this effect are not yet fully understood. It has been established that several different peptides released in response to dietary amino acids cause a decrease in orexigenic signalling and an increase in anorexigenic signalling by acting on one of two brain areas; the nucleus of the solitary tract (NTS) and the hypothalamic arcuate nucleus. (A) The involvement of these brain areas has been confirmed through studies which have found increased activation of neurons in the NTS and increase activation of the melanocortin pathway in the acruate nucleus after ingestion of a high protein meal. (c)
The post-prandial signals act on specific brain areas through two different methods:
1) Indirectly though vagus-mediated pathways
2) Directly after their release into the peripheral blood (A)


In the indirect pathway dietary protein and amino acids present in the small intestine act on chemoreceptors on the mucosal enteroendocrine cells causing the release of cholecystokinin (CCK). The CCK releasing cells have a very high proximity to the vagal afferent fibres so it was discovered that CCK acts on low affinity CCK type 1 receptors on the vagus nerve. (A)This causes the vagus nerve to act at the nucleus of solitary tract in the brainstem to give anorexigenic effects. (A) The anoretic effects have been confirmed by experiments involving the administration of a CCK antagonist which caused an increase in energy intake. (B) This cholecystokinin-induced anorexia is thought to be the main method of satiety.


The direct pathway involves peptide YY (PPY) which is secreted by L cells in the GI tract in response to dietary amino acids. (B) (B) PPY crosses the blood brain barrier and acts at Y2 receptors on the neuropeptide Y neurons in the hypothalamic arcuate nucleus. This inhibits the secretion of neuropeptide Y and agouti related protein, potent orexigenic peptides, releasing the block on POMC neurons which allows them to release alpha-MSH to act on the MC4R receptors to cause anoretic effects.(B) There is some controversy about the action of PPY because in studies in rodents, primates and humans where it was administered peripherally it caused a decrease in food intake and a reduction in weight gain as expected but when it was given centrally it had the opposite effect and actually stimulated appetite. (B)

Other peptides thought to be involved in satiety and reduced food intake due to a high protein diet are AMP-activated protein kinase (AMPK) and mammalian target of rapamycin (mTOR). (D) Studies found that a high protein diet caused suppression of AMPK phosphorylation and an activation of mTOR in the hypothalamus. It is thought that this is due to the actions of leucine which is the most abundant amino acid in most dietary proteins. It has been found to stimulate mTOR and cause the block in AMPK signalling in vivo, however the mechanisms behind this are unknown (D) High protein diets enhanced with extra leucine were found to cause a lower food intake and an increased weight loss compared to diets with lower leucine content. (D) The involvement of mTOR in satiating pathways was confirmed by experiments which found that blocking mTOR reversed the anoretic effects of a high protein diet. (D) The activation of AMPK has been found to cause an increase in food intake and weigh gain. (D)The neurons which express AMPK and mTOR are found in the hypothalamic arcuate nucleus and it is suggested they are involved in the PPY signalling. (A)

The idea that glucagons-like peptide 1 (GLP-1) caused an inhibition of food intake through taste aversion was considered as it is released in response to amino acids in the gut and acts through the vagus afferent fibres. This theory was disproved after it was found that neurons expressing GLP-1 in the NTS were not activated during the satiety response. (A) Therefore the reduction in food intake after a high protein meal is not due to taste aversion.


References A) Tome, D. Schwarz, J. Darcel, N. Fromentin, G., 2009. Protein, amino acids, vagus nerve signalling and the brain, Am J Clin Nutr;90 B) Lopez, M. Tovar1, S. Vazquez1, M.J. Williams, L.M. Carlos Dieguez, C., 2007.Peripheral tissue-brain interactions in the regulation of food intake. Proceedings of the Nutrition Society; 66, 131–155 C) Faipoux, R. Tome, D. Gougis, S. Darcel, N. Fromentin, G., 2008. Proteins activate satiety-related neuronal pathways in the brainstem and hypothalamus of rats. American Society for Nutrition;138: 1172–1178 D) Ropelle, E.R. et al. 2008. A central role for neuronal AMP-activated protein kinase and mammalian target of rapamycin in high protein diet induced weight loss Diabetes; 57

Ashleigh Fraser 16:16, 25 October 2011 (UTC)


© Image: Ashleigh Fraser
Direct Pathway.

Use as a method of weight loss

Over the past few years, obesity has become a global epidemic. One third of American adults and approximately 17% of American children are obese (A). In the UK, the statistics are not looking much brighter with 25% of adults and 10% of children showing signs of obesity. It has been proposed in the UK that 60% of men, 50% of women and 25% of children will become obese by 2050 if no preventative measures are taken (B).

This growing prevalence of obesity needs a solution. Many hypotheses regarding various weight loss diets have been proposed, but what about the aminostatic hypothesis which suggests high protein intake? The science behind the theory certainly looks promising. It demonstrates induced levels of thermogenesis and increased satiety, both of which could contribute to weight loss. High Protein diets are becoming increasingly popular all over the world, but are these diets just a fad? Protein intake normally consists of 10-15% from daily calorie allowance. However, a high protein diets consists of obtaining 30-40% of daily calories from protein alone. So, what does a high protein diet consist of and what are the benefits and limitations? Is there any evidence proving the success of this diet?

The Dukan diet is most popular in France, where it was founded by Pierre Dukan. It is based on an allowance of one hundred allowed high protein foods controlled by four phases named attack, cruise, consolidation and stabilisation. This involves a strict regime of initially only eating 72 ‘allowed’ high protein foods (attack phase) for seven days which include beef, chicken and eggs. The next two stages slowly introduce vegetables (cruise phase) and other pleasurable foods (consolidation phase). Finally, other food groups are introduced in the stabilisation phase (F).

The Atkins diet is most popular in America but is slowly gaining recognition in other parts of the world, including the UK. Like the Dukan diet, it also follows a strict regime of ‘allowed’ high protein foods. However, the Atkins diet is strictly no refined carbs. Dr Atkins believes many refined carbohydrate foods, such as pasta, also have high sugar levels. Limiting the amount of carbohydrates a person eats would force the body to burn off fat instead of carbs(G). Restricting refined carbohydrates, and therefore restricting refined sugars, would also diminish the ‘sugar rollercoaster’ that many people experience throughout the day. Thus, the individual would not crave sugary foods and would feel satisfied for longer.

Many clinical trials have been carried out to assess the effects of high protein diets. A meta-analysis of five random clinical trials (N=447) showed that dieters on high protein diets lost more weight, after 6 months, than dieters on the common low fat diets. The mean difference was -3.3kg. (C). However, the same studies showed no difference in weight loss after 12 months of dieting. This, therefore, suggests that high protein diets are only successful for short term weight loss. Another study, however, compared four different diets consisting of varied quantities of carbohydrate and protein in pre-menopausal obese women (N=311). After 12 months of dieting, women who followed the high protein diet showed greater weight loss (mean = -4.7kg) compared to women subjected to the other diets named Zone (mean= -1.6kg), LEARN (mean=-2.6kg) and Ornish (mean=-2.2kg), respectively (D). Moreover, a study carried out by Westerterp-Plantenga et al (2006) (E) concluded that high protein diets are more successful when intake is ad libitum. This supports the evidence that protein has a satiating effect which makes it less likely for impulsive, random eating.

There are however, with many diets, some safety concerns. With high protein diets, there is major concern over renal failure and bone loss. Although evidence is ambiguous regarding high protein diets damaging the kidneys, high protein diets are best avoided in patients with underlying kidney problems (H). High protein diets also propose a concern over bone health. For example, when meat is eaten, calcium is excreted from the bones to fulfil metabolic requirements. Reduced calcium levels in bones could potentially lead to osteoporosis.

The majority of studies conclude that high protein diets do help to lose weight, particularly in short term. However, high protein foods need to be eaten with limiting carbohydrates and fats to gain the maximum benefits. Although this sounds promising, detrimental potential long term effects such as renal failure and bone loss still need to be addressed.

Conclusion

  • Future studies, maybe more into long term effects of diet. Any drugs that may interact with pathways? Lisa Robertson 15:44, 25 October 2011 (UTC)

References

  1. Mellinkoff SM et al. (1956) Relationship between serum amino acid concentration and fluctuations in appetite J Appl Physiol 8:535-8 PMID 13295170

(A)Centers for Disease Control and Prevention. (2011). U.S Obesity Trends. Available: http://www.cdc.gov/obesity/data/trends.html. Last accessed 25th Oct 2011.

(B)Department of Health. (2011). Obesity. Available: http://www.dh.gov.uk/en/Publichealth/Obesity/index.htm. Last accessed 25th Oct 2011.

(D)Gardner CD, Kiazand A, Alhassan S, Kim S, Stafford RS, Balise RR, Kraemer HC, King AC. (2007). Comparison of the Atkins, Zone, Ornish, and LEARN diets for change in weight and related risk factors among overweight premenopausal women: the A TO Z Weight Loss Study: a randomized trial. JAMA.. 297 (9), 969-977.

(E)Westerterp-Plantenga M, N Luscombe-Marsh, M P G M Lejeune, K Diepvens, A Nieuwenhuizen, M P K J Engelen, N E P Deutz, D Azzout-Marniche, D Tome and K R Westerterp. (2006). Dietary protein, metabolism, and body-weight regulation: dose–response effects.International Journal of Obesity. 30 (1), 16-23.

(C)Bonnie J. Brehma and David A. D’Alessio. (2008). Benefits of high-protein weight loss diets: enough evidence for practice?. Current Opinion in Endocrinology, Diabetes & Obesity. 15 (4), 416-421.

(F)Dukan, P. (2011). The Dukan method: lose weight naturally. Available: http://www.dukandiet.co.uk/en/336-dukan-coaching/the-dukan-method.html. Last accessed 6th Nov 2011.

(G)Atkins International. (2011). Thoughtful Approach.Powerful Science.Available: http://uk.atkins.com/science. Last accessed 6th Nov 2011.