The present invention relates to the field of lipido-carbohydrate metabolism disorders, and relates more particularly to a composition usable in preventing or treating nonalcoholic hepatic steatosis.
Nonalcoholic hepatic steatosis is a disease associated with considerable accumulation of lipids in the liver, and is notably defined by an accumulation above 5% of neutral lipids in the hepatocytes. This pathology represents a major public health problem as it currently affects 20 to 30% of the population of Western countries and may progress to steatohepatitis (NASH), or may even develop into nonalcoholic cirrhosis or else hepato-carcinoma. All of these pathologies are grouped together under the term NAFLD (Non Alcoholic Fatty Liver Disease). Unfortunately, no treatment is available at present for treating these pathologies and the only way of detecting them is to perform a liver biopsy. That is why research is now turning toward means for preventing the development of hepatic steatosis.
In the course of their research, the inventors discovered that a composition based on phycocyanin, and more particularly derived from a specific extract from microalgae or cyanobacteria such as Spirulina, has interesting properties with respect to these lipido-carbohydrate metabolism disorders, and notably can be used in the treatment or prevention of nonalcoholic hepatic steatosis.
In fact, all the studies in the prior art were carried out using either an extract obtained from dried Spirulina, or an extract obtained from fresh Spirulina, but the extracted product underwent a subsequent drying step (for example for dry storage).
For this purpose, the present invention relates to a composition comprising an aqueous liquid extract of phycobiliproteins, containing phycocyanin, obtained from cyanobacteria or microalgae, without undergoing a drying step, used for preventing or treating lipido-carbohydrate metabolism disorders in humans or other mammals. The composition according to the invention is used for protecting the liver against accumulation of lipids in the hepatocytes, and more particularly for preventing or treating nonalcoholic hepatic steatosis or steatohepatitis.
The method for preparing this extract, carried out in an aqueous medium only (without organic solvent), is described in detail in the patent application (not yet published) FR 1752452.
Not having undergone any drying step during its preparation, this extract notably contains a phycocyanin that is neither denatured nor degraded.
Preferably, the aqueous extract is obtained from Spirulina platensis.
Preferably, the composition according to the invention contains only said aqueous extract, comprising a phycocyanin content of at least 0.5 g/L, preferably between 0.8 and 10 g/L, more preferably between 1 g/L and 5 g/L.
Advantageously, it is in liquid form and is formulated for administration by the oral route. Its main advantage is that it can be added for example to drinking water, in the form of a food supplement.
The results obtained to date indicate that dosages for preventing nonalcoholic hepatic steatosis by means of the composition according to the present invention are, surprisingly, advantageously between 0.1 and 10 mg/kg of body weight/day of phycocyanin, preferably between 0.5 and 5 mg/kg/day of phycocyanin, i.e. at doses of phycocyanin that is neither denatured nor degraded that are well below the doses used in the prior art with dried Spirulina or dry extracts. This makes it possible to envisage applications that are more advantageous, notably in terms of economics.
At higher doses, the composition could be used for treating nonalcoholic steatosis.
The invention will become clear on reading the following description of embodiment examples, referring to the appended drawings, in which:
The effect of administration of phycocyanin was studied on hamsters, notably on their lipid metabolism. The phycocyanin was added to their food, more particularly in their drinking water, in the form of the liquid extract of Spirulina called Spirulysat®, marketed by the company Algosource. Spirulysat® is a liquid extract, the method of extraction of which (patent application FR1752452, not yet published), obtained from cyanobacteria called Arthrospira platensis, more commonly called Spirulina, which are very rich in antioxidant molecules such as phycocyanin (PC-C).
1.1 g of Spirulysat®/kg of body weight/day (i.e. 10 mg of phycocyanin/kg of body weight/day) was administered to four groups of hamsters:
These hamsters had been fed a high-fat diet for 2 weeks beforehand to induce metabolic disturbances. At the end of this period, the hamsters continued to receive the same diet for two weeks in parallel with administration of Spirulysat® in the drinking water. The protocol applied is shown schematically in
The key results of this study are defined essentially in 3 points. Firstly, a significant decrease of fasting glycemia was observed in group HFSp compared to group HF (−17%), without a change in weight of the hamsters (145.9±5.45 vs 142.1±4.48 g, respectively) (
Following the results obtained on the hamsters in example 1, a more complete study was carried out on C57Bl/6 mice. The C57Bl/6 mice are models for studying liver diseases, as they are sensitive to a hyper-fat diet and develop the risk factors for NAFLD.
This protocol comprised four groups of animals:
The NAFLDs include several diseases that correspond to the different stages of liver disease. The study is thus a kinetic study of the onset of these different stages.
For this purpose, 10 mice from each of the groups in the above protocol were sacrificed after 4, 8, 16, 25 and 35 weeks. The diet used and the duration of exposure to this diet were selected according to the work by Charlton, in American Journal of Physiology-Gastrointestinal and Liver Physiology, 2011, 301(5): G825-34, showing similarity in the pathophysiological development of NAFLDs between mice and humans.
2.1. Food Consumption and Body Weight
The results show that the mice WD consume significantly less hyper-fat pellets than the mice with the reference diet (group Ctrl) (12%, see
Monitoring the weight of the animals reveals that the hyper-fat diet certainly plays a part, since the mice in WD all have a significantly higher body weight than the Ctrl mice (
2.2 Metabolic Measurements
The measurements of glycemia show that ingestion of Spirulysat® does not decrease fasting glycemia (
2.3 Biochemical Parameters
There is no notable effect of food containing Spirulysat® on plasma triglycerides (
Investigation of the distribution of this plasma cholesterol shows that the concentration of cholesterol in HDLs (called “good cholesterol”) is clearly increased in the mice whose food contains Spirulysat® (see the various diagrams in
2.4 Liver Analyses
Steatosis and liver fibrosis were quantified respectively after trichrome staining by adding saffron and staining with 0.1% picrosirius red.
Comparing
Hepatic OS (oxidizing stress) (O2°—and NO) was measured by electron paramagnetic resonance.
Oxidizing stress, induced by the hyper-fat diet with fructose (group WD), is greatly reduced in the mice that received phycocyanin WDS1 and WDS2, and is brought back to values equivalent to those of the control group (Ctrl), as shown by the values in
The experiments according to example 2 were conducted for 25 weeks on three groups of C57Bl/6 mice aged 7 weeks:
The results obtained notably confirm that the liquid extract of Spirulina, at 25 weeks of the diet:
Number | Date | Country | Kind |
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1762007 | Dec 2017 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/FR2018/053196 | 12/11/2018 | WO | 00 |