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Inhibition of HIV-1 replication by an aqueous extract of Spirulina (arthrospira platensis).

by Ayehunie S. (1), Belay A. (2), Hu Y. (1), Baba T. (1,3), Ruprecht R. (1). (1) Laboratory of Viral Pathogenesis, Dana-Farber Cancer Institute and Harvard Medical School, Boston, MA, USA; (2) Earthrise Farms, Calipatria, CA; (3) Division of Newborn Medicine, Department of Pediatrics, Tufts University, Boston, MA, USA. 7th IAAA Conference, Knysna, South Africa April 17, 1996.

Water extract of Spirulina platensis (Arthrospira platensis) inhibits HIV-1 replication in human derived T-cell lines and in human peripheral blood mononuclear cells. A concentration of 5-10 (mcg/ml was found to reduce viral production and/or syncytium formation of about 50%, and a concentration of 100 (mcg/ml showed a 90-100% inhibition without cytotoxicity. The 50% inhibitory concentration (IC50) for cell growth was computed to be between 2-6.5 mg/ml depending on the cell types used; the therapeutic index was >100. The extract also blocked Rauscher murine leukemia virus (RLV)-induced plaques by >95% at concentrations ranging from 75-150 (mcg/ml; the 50% reduction in plaque formation (the 50% effective concentration EC50) was at a concentration of 9-30 (mcg/ml. The extract directly inactivated HIV-1 infectivity when preincubated with virus prior to addition to human T-cell lines at similar inhibitory concentrations.

Calcium Spirulan, an inhibitor of enveloped virus replication, from a blue-green alga Spirulina.

by Hayashi et al. 1996. Pub. in Journal of Natural Products, 59, 83-87. Japan.

Bioactivity-directed fractionation of a hot H2O extract from a blue-green-alga Spirulina platensis led to the isolation of a novel sulfated polysaccharide named Calcium Spirulan (Ca-SP) as an antiviral principle. This polysaccharide was composed of rhamnose, ribose, mannose, fructose, galactose, xylose, glucose, glucuronic acid, galacturonic acid, sulfate and calcium. Ca-SP was found to inhibit the replication of several enveloped viruses, including Herpes simplex virus type 1, human cytomegalovirus, measles virus, mumps virus, influenza A virus and HIV-1. It was revealed that Ca-SP selectively inhibited the penetration of virus into host cells. Retention of molecular conformation by chelation of calcium ion with sulfate groups was suggested to be indispensible to its antiviral effect.

An extract from spirulina is a selective inhibitor of herpes simplex virus Type 1 Penetration into HeLa Cells.

by Hayashi et al. 1993. Pub. in Phytotherapy Research, Vol. 7. 76-80. Japan.

The water soluble extract of spirulina achieved a dose-dependent inhibition of the replication of herpes simplex virus type 1 (HSV-1) in HeLa cells within the concentration range of 0.08-50 mg/mL. This extract proved to have no virucidal activity and did not interfere with adsorption to host cells. However, the extract affected viral penetration in a dose-dependent manner. At 1 mg/ml the extract was found to inhibit virus-specific protein synthesis without suppressing host cell protein synthesis if added to the cells 3 hours before hamsters at doses of 100 and 500 mg/kg per day.

Antiviral activity of blue-green algae cultures.

by Patterson. 1993. Pub. in Journal of Phycology 29, 125-130. USA.

Lipophilic and hydrophilic extracts from approximately 600 strains of cultured cyanophytes, representing some 300 species, were examined for antiviral activity against three pathogenic viruses. Approximately 10% of the cultures produced substances that caused significant reduction in cytopathic effect normally associated with viral infection. The screening program identified Chroocococcales as commonly producing antiviral agents. Key index words: antiviral, cyanobacteria, cyanophyte, herpes virus, HIV-1, HIV-2, human immunodeficiency virus, natural products, pharmaceutical, respiratory syncytical virus.

AIDS Antiviral sulfolipids from cyanobacteria (blue-green algae).

by K. Gustafson, et al. August 16, 1989 . Pub. in Journal of the National Cancer Institute, 81(16) pg. 1254. USA.

Sulfoglycolipids from blue-green algae exhibit strong antiviral properties. Helper T-cells exposed to blue-green algae-sulfoglycolipids were protected from HIV-1 infection in in vitro studies.

Evaluation of chemoprevention of oral cancer with spirulina.

by Babu, M. et al. 1995. Pub. in Nutrition and Cancer, Vol. 24, No. 2, 197-202. India.

The blue-green microalgae spirulina, used in daily diets of natives in Africa and America , has been found to be a rich natural source of proteins, carotenoids and other micronutrients. Experimental studies in animal models have demonstrated an inhibitory effect of spirulina algae on oral carcinogenesis. Studies among preschool children in India have demonstrated spirulina fusiformis to be a effective source of dietary vitamin A. We evaluated the chemoproventative activity of spirulina (1 g/day for 12 months) in reversing oral leukoplakia in pan tobacco chewers in Kerala , India . Complete regression of lesions was observed in 20 of 44 (45%) evaluable subjects supplemented with spirulina, as opposed to 3 of 43 (7%) in the placebo arm. When stratified by type of leukoplakia, the response was more pronounced in homogeneous lesions: complete regression was seen in 16 of 28 (57%) subjects with homogeneous leukoplakia, 2 of 8 with erythroplakia, 2 of 4 with verrucous leukoplakia, and 0 of 4 with ulcerated and nodular lesions. Within one year of discontinuing supplements, 9 of 20 (45%) complete responders with spirulina developed recurrent lesions. Supplementation with spirulina did not increase serum concentrations of retinal or beta carotene, nor was it associated with toxicity. This is the first human study evaluating the chemopreventive potential of spirulina. More studies in different settings and different populations are needed for further evaluations.

Inhibitive effect and mechanism of polysaccharide of spirulina on transplanted tumor cells in mice.

by Lisheng, et al. 1991. Pub. in Marine Sciences, Qingdao , N.5. pp 33-38. China.

Polysaccharide of spirulina can inhibit the proliferation of ascitic heptoma cells of mice in the concentration of 200 mg/kg. It can inhibit the incorporation of H-thymidine, H-uridine and H-leucine into DNA, RNA and protein synthesis of sarcoma 180 and ascitic heptoma cells during the period of 24 hours after exposure in vitro. The degree of inhibition increases with the extending of incubation time. Polysaccharide of spirulina can inhibit DNA synthesis of sarcoma 180 and ascitic heptoma cells. The mechanism of inhibition belongs to DNA metabolism disturbance.

Enhancement of endonuclease activity and repair DNA synthesis by polysaccharide of spirulina.

by Qishen, P. et al. 1988. Pub. in Chinese Genetics Journal 15 (5) 374-381. China.

The influence of water soluble polysaccharide from spirulina platensis on excision repair of DNA was investigated by means of endonuclease assay and radioautography. The results showed that the presence of the polysaccharide enhanced significantly both the repair activity of radiation damaged DNA excision and the unscheduled DNA synthesis (UDS). During the examination of the time course of the excision process, it was found that the presence of polysaccharide of spirulina not only increased the initial rates of the damaged DNA excision and the UDS, but also postponed the saturations of both important reactions of excision and repair DNA synthesis.

Inhibition of experimental oral carcinogenesis by topical beta carotene.

by Schwartz, et al. 1986. Harvard School of Dental Medicine. Pub. in Carcinogenesis, May 1986 7(5) 711-715. USA.

Beta carotene was found to significantly inhibit the formation of squamous cell carcinoma of hamster buccal pouch when a soultion was applied topically three times weekly for 22 weeks in an experiment with 40 hamsters. In a second experiment with 80 hamsters, beta carotene was found to inhibit oral carcinogenesis in an initiation-promotion hamster buccal pouch system. Beta carotene inhibited both initation and promotion.

Prevention of experimental oral cancer by extracts of spirulina-dunaliella algae.

by J. Schwartz, G. Shklar, et al. 1988. Harvard School of Dental Medicine. Pub. in Nutrition and Cancer 11, 127-134. 1988. USA.

An extract of Spirulina-Dunaliella algae was shown to prevent tumor development in hamster buccal pouch when a solution was applied topically three times weekly for 28 weeks. Untreated control animals all presented gross tumours of the right buccal pouch. Animals fed canthaxanthin presented a notably and statistically significant reduction in tumour number and size compared with controls. Animals fed beta carotene demonstrated a smaller but statistically significant reduction in tumor number and size. The algae animals presented a complete absence of gross tumors. However, microscopic sections of the buccal pouch in the algae group showed localized areas of dysplasia and early carcinoma-in-situ undergoing destruction.

Bioavailability of spirulina carotenes in preschool children.

by V. Annapurna, et al. 1991. National Institute of Nutrition , Hyderabad , India . J. Clin. Biochem Nutrition. 10 145-151. India.

The bioavailability of total carotenes and beta carotene from spirulina was examined in apparently healthy preschool children and found to be comparable to those values reported for other plant sources like leafy vegetables and carrots. The study also showed spirulina is a good source of Vitamin A, as there was a significant increase in serum retinol levels. Researchers concluded spirulina can be used as a source of Vitamin A in the diet, is relatively inexpensive, has higher beta carotene than any other plant source and can be cultivated throughout the year.

Large scale nutritional supplementation with spirulina algae.

by C.V. Seshadri. 1993. All India Coordinated Project on Spirulina. Shri Amm Murugappa Chettiar Research Center (MCRC) Madras , India.

A one year feeding program with 5,000 pre-school children showed a symptom of Vitamin A deficiency, "Bitot's spot", decreased from 80% to 10%. These rural children near Madras consumed 1 gram of spirulina a day for at least 150 days. This small amount provided the daily requirement of beta carotene (Vitamin A) which can help prevent blindness and eye diseases. In another study with 400 school children, a daily dose of beta carotene from spirulina increased their Vitamin A status to the same level as those administered pure Vitamin A. Spirulina was given to children in a unique way: extruded noodles, sweetened with sugar to preserve the beta carotene. Called "Spiru-Om", it was well accepted by the children. This project was sponsored by the Indian Government.

Inhibition of experimental oral carcinogenesis by topical beta carotene.

by Schwartz, et al. 1986. Harvard School of Dental Medicine. Pub. in Carcinogenesis, May 1986 7(5) 711-715. USA.

Beta carotene was found to significantly inhibit the formation of squamous cell carcinoma of hamster buccal pouch when a soultion was applied topically three times weekly for 22 weeks in an experiment with 40 hamsters. In a second experiment with 80 hamsters, beta carotene was found to inhibit oral carcinogenesis in an initiation-promotion hamster buccal pouch system. Beta carotene inhibited both initation and promotion.

Prevention of experimental oral cancer by extracts of spirulina-dunaliella algae.

by J. Schwartz, G. Shklar, et al. 1988. Harvard School of Dental Medicine. Pub. in Nutrition and Cancer 11, 127-134. 1988. USA .

An extract of Spirulina-Dunaliella algae was shown to prevent tumor development in hamster buccal pouch when a solution was applied topically three times weekly for 28 weeks. Untreated control animals all presented gross tumours of the right buccal pouch. Animals fed canthaxanthin presented a notably and statistically significant reduction in tumour number and size compared with controls. Animals fed beta carotene demonstrated a smaller but statistically significant reduction in tumor number and size. The algae animals presented a complete absence of gross tumors. However, microscopic sections of the buccal pouch in the algae group showed localized areas of dysplasia and early carcinoma-in-situ undergoing destruction.

Cholesterol lowering effect of spirulina.

by N. Nayaka , et al. 1988. Tokai Univ. Pub. in Nutrition Reports Int'l, Vol. 37, No. 6, 1329-1337. Japan.

Thirty healthy men with high cholesterol, mild hypertension and hyperlipidemia showed lower serum cholesterol, triglyceride and LDL (undesirable fat) levels after eating spirulina for eight weeks. These men did not change their diet, except adding spirulina. No adverse effects were noted. Group A consumed 4.2 grams daily for eight weeks. Total serum cholesterol dropped a significant 4.5% within 4 weeks from 244 to 233. Group B consumed spirulina for four weeks, then stopped. Serum cholesterol levels decreased, then returned to the initial level. Researchers concluded spirulina did lower serum cholesterol and was likely to have a favorable effect on alleviating heart disease since the arterioscelosis index improved.

Clinical and biochemical evaluations of spirulina with regard to its application in the treatment of obesity.

by E.W. Becker, et al. 1986. Inst. Chem. Pfanz. Pub. in Nutrition Reports Int'l, Vol. 33, No. 4, pg 565. Germany.

Effects of spirulina on hypercholesterolemia and fatty liver in rats.

by T. Kato and K. Takemoto. 1984. Saitama Medical College . Pub. in Japan Nutr. Foods Assoc. Journal. 37:323. Japan.

Rats fed basal diets containing 1% cholesterol showed elevated total cholesterol, and phospholipids in serum. This was clearly reduced by rats fed basal diets containing 16% spirulina and 1% cholesterol.The results indicated spirulina may prevent dietary hypercholesterolemia and arterioscelerosis. Fatty liver caused by high fat and high-cholesterol diets was also reduced rapidly by feeding spirulina.

Effects of spirulina on plasma lipoprotein lipase activity in rats.

by K. Iwata. 1990. Pub. in Journal Nutr. Sci. Vitaminol. 36:165-171. Japan.

The effects of spirulina on lipoprotein lipase activity and hepatic triglyceride lipase activity in post-heparin plasma were studied in fructose-induced hyperlipidemic rats. Male Wistar rats aged 3 weeks old (body weight, 54g) were fed on the high-fructose diet (68%) or the high-fructose diets containing spirulina at the level of 5%, 10%, and 15%, respectively, for 4 weeks. The dietary hyperlipidemia caused by the high-fructose diet was improved by spirulina feeding, accompanied by a significant increase in the lipoprotein lipase activity in post-heparin plasma.

Hypocholesterolemic effect of blue-green algae spirulina in albino rats.

by M.A. Devi and L.V. Venkataraman. 1983. Pub. in Nutrition Reports Int'l, 28:519-530. India.

The effect of spirulina on reduction of serum cholesterol.

Some text by N. Nayaka , et al. 1986. Tokai Univ. Pub. in Progress in Medicine, Vol. 36, No. 11. Japan.

Effect of water soluble and water insoluble fractions of spirulina over serum lipids and glucose resistance of rats.

by Y. Takai, et al. 1991. Pub. in J. Japan Soc. Nutr. Food Science, 44:273-277. Japan.

Effects of spirulina on plasma lipoprotein lipase activity in rats.

by K. Iwata. 1990. Pub. in Journal Nutr. Sci. Vitaminol. 36:165-171. Japan.

The effects of spirulina on lipoprotein lipase activity and hepatic triglyceride lipase activity in post-heparin plasma were studied in fructose-induced hyperlipidemic rats. Male Wistar rats aged 3 weeks old (body weight, 54g) were fed on the high-fructose diet (68%) or the high-fructose diets containing spirulina at the level of 5%, 10%, and 15%, respectively, for 4 weeks. The dietary hyperlipidemia caused by the high-fructose diet was improved by spirulina feeding, accompanied by a significant increase in the lipoprotein lipase activity in post-heparin plasma.

Hypocholesterolemic effect of blue-green algae spirulina in albino rats.

by M.A. Devi and L.V. Venkataraman. 1983. Pub. in Nutrition Reports Int'l, 28:519-530. India.

The effect of spirulina on reduction of serum cholesterol.

by N. Nayaka , et al. 1986. Tokai Univ. Pub. in Progress in Medicine, Vol. 36, No. 11. Japan.

Effect of water soluble and water insoluble fractions of spirulina over serum lipids and glucose resistance of rats.

by Y. Takai, et al. 1991. Pub. in J. Japan Soc. Nutr. Food Science, 44:273-277. Japan.

Effects of spirulina on plasma lipoprotein lipase activity in rats.

by K. Iwata. 1990. Pub. in Journal Nutr. Sci. Vitaminol. 36:165-171. Japan.

The effects of spirulina on lipoprotein lipase activity and hepatic triglyceride lipase activity in post-heparin plasma were studied in fructose-induced hyperlipidemic rats. Male Wistar rats aged 3 weeks old (body weight, 54g) were fed on the high-fructose diet (68%) or the high-fructose diets containing spirulina at the level of 5%, 10%, and 15%, respectively, for 4 weeks. The dietary hyperlipidemia caused by the high-fructose diet was improved by spirulina feeding, accompanied by a significant increase in the lipoprotein lipase activity in post-heparin plasma.

Spirulina - Production & Potential. by Ripley D. Fox. 1996. Pub.

by Editions Edisud, La Calade, R.N.7, 13090 Aix-en-Province , France . Tel: 42216144; Fax: 42215620.

This book gives the most complete and practical information on growing spirulina. It should be consulted by health authorities and development decisionmakers, by spirulina growers and it can be used as a teaching text in universities. Dr. Fox explains the history of the cyanobacteria, Arthrospira platensis, popularly known as the blue-green algae spirulina... its composition, growth requirements and methods for managing the culture (from village level artisanal production to large scale industrial farms). Health benefits are described, with emphasis on its usefulness for combatting malnutrition. Giant farms using seawater are proposed for providing spirulina as a food supplement for the millions of malnourished children living today. Dr. Fox sees spirulina as a million dollar commodity in the near future.

Algoculture: Spirulina, hope for a hungry world.

by Ripley D. Fox. 1986. Pub. by Edisud, Aix-en-Province , France (in French).

Current knowledge on potential health benefits of spirulina.

by Amha Belay and Yoshimichi Ota. 1993. Pub. in Journal of Appl. Phycology, 5:235-241. USA.

Spirulina is a microscopic algae, produced commercially and sold as a food supplement around the world. Until recently, interest in spirulina was mainly in its nutritive value. This is a critical review of data on therapeutic effects of Spirulina, ranging from reduction of cholesterol and cancer to enhancing the immune system, increasing intestinal lactobacilli, reducing nephrotoxicity by heavy metals and drugs, and radiation protection.

Health Benefits of Spirulina.

by Denise Fox. 1993. In Spirulina, Algae of Life. April 1993. Bulletin No. 12. Pub. by Institute Oceanographique , Monaco.

Large scale nutritional supplementation with spirulina alga.

by C.V. Seshadri. 1993. All India Coordinated Project on Spirulina. Shri Amm Murugappa Chettiar Research Center (MCRC) Madras , India.

A one year feeding program with 5,000 pre-school children showed a symptom of Vitamin A deficiency, "Bitot's spot", decreased from 80% to 10%. These rural children near Madras consumed 1 gram of spirulina a day for at least 150 days. This small amount provided the daily requirement of beta carotene (Vitamin A) which can help prevent blindness and eye diseases. In another study with 400 school children, a daily dose of beta carotene from spirulina increased their Vitamin A status to the same level as those administered pure Vitamin A. Spirulina was given to children in a unique way: extruded noodles, sweetened with sugar to preserve the beta carotene. Called "Spiru-Om", it was well accepted by the children. This project was sponsored by the Indian Government.

Microalgae as Food and Supplement.

by Robert A. Kay. 1991. In Critical Reviews in Food Science and Nutr. 30(6):555-573. Pub. by CRC Press. USA.

The microalgae chlorella, dunaliella and scenedesmus, and the cyanobacteria spirulina and aphanizomenon flos-aquae, are being used as nutrient dense foods and sources of fine chemicals. They have significant amounts of lipid, protein, chlorophyll, carotenoid, vitamins, minerals, and unique pigments. They may also have potent probiotic compounds that enhance health. Their historical and current use is reviewed.

Spirulina: a model for microalgae as human food.

by Cambridge Univ. Press, Cambridge , UK.

This is an evaluation of the food potential of microalgae using proven technology. Numerous examples of traditional use of inland microalgae are cited from more than 15 countries. The nutritional aspects of spirulina stand out. Spirulina's safety for human consumption, food applications, economic and environmental aspects, world spirulina production, production costs and therapeutic applications are reviewed. How microalgae can address world hunger problems is addressed with mention of harvesting wild algae and village scale production systems.

Spirulina, the edible organism.

by Orio Ciferri. 1983. In Microbiological Reviews, Dec 1983. 551-578. Italy.

In depth review of the history, biology, chemistry and potential of Spirulina as a human and animal food. Subjects: taxonomy, physiology, biochemistry, chemical composition, production, nutrition and toxicology, prospects for use as a food source.

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