1. What is hydroxycitric acid?
Hydroxycitric acid (HCA) is the prinicpal acid found in the fruit rind of
Garcinia cambogia. This species also has other bioactive components, such
as biflavanoids, xanthones and benzophenones, but these play only a minor
role in its biological activity. Similar in structure to citric acid, the
effects of HCA on metabolism were being researched as early as the 1970's.
It is widely marketed as a fat loss aid, although there is little scientific
evidence supporting the method of use and dosage that most supplement companies
recommend. This article will explain possible reasons for discrepancies in
the research, as well as the ideal way to utilize HCA.
2. How does HCA work?
There are a variety of ways in which HCA may aid in the improvement of body
composition. HCA inhibits the extramitochondrial enzyme adenosine 5'-triphosphate
(ATP) citrate-lyase, which catalyzes the cleavage of citrate to oxaloacetate
and acetyl-CoA [1-3]. This leads to a reduction in the acetyl-CoA pool, which
limits the availability of two-carbon units that are used for the synthesis
of fatty acids and cholesterol [1, 3]. This makes HCA an effective inhibitor
of de novo lipogenesis, the process which converts carbohydrates to fat.
Secondly, HCA suppresses malonyl CoA (via inhibition of acetyl-CoA), which
is an inhibitor of carnitine malpitoyl-transferase I [2-3]. Increased activity
of this enzyme would increase fatty acid oxidation. In vitro, HCA increases
oxidation of fatty acids in skeletal muscle cells and pancreatic beta cells
[2], but the primary action of HCA in vivo is probably the liver, and increased
hepatic fatty acid oxidation would also decrease appetite [2-4]. HCA also
may stimulate glycogen synthesis in the liver, leading to increased sateity
[2-3]. Finally, HCA inhibits uptake of serotonin in the brain in vitro, and
if this also happens in vivo it may contribute to appetite suppression [5].
3. What is the evidence for and against HCA supplementation?
Many studies in rats have found that HCA suppresses food intake and inhibits
body weight gain, both in young rats and in adult rats gaining weight after
substantial body weight loss [2]. There are also many studies in humans on
fat loss and appetite, with varying results. Unfortunately, most of the studies
with positive results either used a small sample size or did not use a placebo
group [6]. On the other hand, while many studies without methodological problems
found no effect from HCA, they tested HCA on subjects on low calorie diets
[6]. This is a nonsensical approach, because the mechanisms of action of
HCA primarily favor the inhibition of fat regain after weight loss. During
negative energy balance (e.g., on a low calorie diet), the conversion of
citrate into acetyl-CoA by ATP-citrate-lyase does not occur, and glycogen
levels in the liver are going to be low [3]. In contrast, during positive
energy balance, HCA will inhibit de novo lipogenesis and increase the rate
of liver glycogen repletion. Given the mechanism of action of HCA, it should
not be very effective in contributing to fat loss, but should aid in the
prevention of fat regain in the hypercaloric state. However, this has yet
to be tested in a rigorous study in humans, and the role that de novo lipogenesis
plays in fat regain in humans may be relatively minor. Future studies will
need to be conducted to explore the full potential of HCA, and until then
it should not be made a cornerstone of a fat loss strategy.
4. What are some other possible benefits of HCA supplementation?
Studies in mice and rats have found that HCA leads to an improvement in blood
lipid profiles [1, 7] and that it prevents the development of ulcers in some
models [8-9]. Some studies indicate that HCA may improve endurance performance
in trained and untrained athletes by improving fat utilization [10-11], while
others negate these findings [4]. In theory, HCA may improve insulin sensitivity
in skeletal muscle by inhibiting malonyl-CoA [4].
5. How should one utilize HCA?
HCA is very safe, and is non-toxic in rats at up to 500 mg/kg daily and 5
g/kg acutely [5, 7]. Since the literature is inconsistent, dosage recommendations
can vary greatly. HCA is probably not very useful if one is on a low calorie
diet, but if one is implementing refeeds, a large dose (10-20 g) may inhibit
lipogenesis and speed glycogen replenishment. This should be spread out among
one dose 1-2 hours before the refeed and then every 2-3 hours during the
refeed. For inhibiting fat gain while bulking, doses as low as 250 mg daily
may have an effect, and some sources recommend 3-4 g daily.
If you have any questions or comments regarding this article, please email
dvdtlsn@bulknutrition.com.
1. Fitoterapia. 2003 Apr;74(3):267-73. Effect
of Garcinia cambogia extract on serum leptin and insulin in mice. Hayamizu
K, Hirakawa H, Oikawa D, Nakanishi T, Takagi T, Tachibana T, Furuse M.
2. J Nutr. 2002 Jul;132(7):1977-82. Hydroxycitrate
has long-term effects on feeding behavior, body weight regain and metabolism
after body weight loss in male rats. Leonhardt M, Langhans W.
3. Physiol Behav. 2001 Nov-Dec;74(4-5):543-9. Effects
of 2-week ingestion of (-)-hydroxycitrate and (-)-hydroxycitrate combined
with medium-chain triglycerides on satiety and food intake. Kovacs EM,
Westerterp-Plantenga MS, de Vries M, Brouns F, Saris WH.
4. Am J Clin Nutr. 2000 Dec;72(6):1445-50. Effects
of acute (-)-hydroxycitrate supplementation on substrate metabolism at rest
and during exercise in humans. van Loon LJ, van Rooijen JJ, Niesen B,
Verhagen H, Saris WH, Wagenmakers AJ.
5. Mol Cell Biochem. 2002 Sep;238(1-2):89-103. Safety
and mechanism of appetite suppression by a novel hydroxycitric acid extract
(HCA-SX). Ohia SE, Opere CA, LeDay AM, Bagchi M, Bagchi D, Stohs SJ.
6. Anal Biochem. 2001 May 1;292(1):148-54.
Gas chromatography/mass spectrometry method to quantify blood hydroxycitrate
concentration. Loe YC, Bergeron N, Rodriguez N, Schwarz JM.
7. Phytother Res. 2001 Aug;15(5):395-400. Impact
of certain flavonoids on lipid profiles--potential action of Garcinia cambogia
flavonoids. Koshy AS, Vijayalakshmi NR.
8. Indian J Exp Biol. 2002 Jan;40(1):58-62. Prevention
of HCl-ethanol induced gastric mucosal injury in rats by Garcinia cambogia
extract and its possible mechanism of action. Mahendran P, Sabitha KE,
Devi CS.
9. Phytother Res. 2002 Feb;16(1):80-3. The
antiulcer activity of Garcinia cambogia extract against indomethacin-induced
gastric ulcer in rats. Mahendran P, Vanisree AJ, Shyamala Devi CS.
10. J Nutr Sci Vitaminol (Tokyo). 2003 Jun;49(3):163-7. (-)-Hydroxycitric
acid ingestion increases fat utilization during exercise in untrained women.
Lim K, Ryu S, Nho HS, Choi SK, Kwon T, Suh H, So J, Tomita K, Okuhara Y,
Shigematsu N.
11. J Nutr Sci Vitaminol (Tokyo). 2002 Apr;48(2):128-33. Short-term
(-)-hydroxycitrate ingestion increases fat oxidation during exercise in athletes.
Lim K, Ryu S, Ohishi Y, Watanabe I, Tomi H, Suh H, Lee WK, Kwon T.
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