Cayenne

Purported Benefits, Side Effects & More
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Cayenne

Purported Benefits, Side Effects & More
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Cayenne

Common Names

  • Capsicum
  • Red peppers
  • African chilies
  • Tabasco peppers
  • Mexican chilies
  • Louisiana long pepper
  • Pimiento

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For Patients & Caregivers

Tell your healthcare providers about any dietary supplements you’re taking, such as herbs, vitamins, minerals, and natural or home remedies. This will help them manage your care and keep you safe.

What is it?

Cayenne is a kind of hot pepper that has capsaicin and other nutrients. It is used as a spice in many cultures around the world. Cayenne pepper is also used in traditional medicine to improve digestion (the way your body breaks down food) and blood circulation.

Cayenne supplements come as capsules, powders, and liquid extracts.

What are the potential uses and benefits?

Cayenne is used to:

  • Improve digestion
  • Improve blood circulation
  • Manage type-2 diabetes
  • Help you lose weight

Cayenne also has other uses that haven’t been studied by doctors to see if they work.

It’s generally safe to add cayenne peppers to vegetable or meat dishes. You can also add ground cayenne pepper to soups, curries, or stews. Talk with your healthcare providers before taking cayenne supplements. Herbal supplements are stronger than the herbs you would use in cooking.

They can also interact with some medications and affect how they work. For more information, read the “What else do I need to know?” section below.

What are the side effects?

Side effects of using cayenne may include:

  • Sweating
  • Eye or nose irritation
  • Stomach irritation
  • Stomach pain
What else do I need to know?
  • Talk to your healthcare provider before using cayenne if you have high blood pressure or heart conditions. It may make these conditions worse.
  • In breastfeeding women, using cayenne may turn the baby’s skin red.
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For Healthcare Professionals

Scientific Name
Capsicum frutescens, Capsicum annuum
Clinical Summary

Derived from the fruit of Capsicum, cayenne is among the most widely consumed culinary spice. Traditionally, it is used as a gargle for laryngitis and orally as a gastrointestinal stimulant. Oral formulations are marketed largely for digestive and circulatory problems, poor appetite, and weight loss. The active component, capsaicin, is also marketed for topical use to relieve various types of pain and for certain skin conditions (See Capsaicin topical formulations).

Capsaicin may increase insulin and decrease blood glucose levels (1). Nonpungent capsaicin analogues can produce a stimulatory effect in humans, but their potential role in energy expenditure and weight management problems needs further clarification (2) (3) (4). In addition, the thermogenic and appetitive effects of capsaicin have been determined to be small (5). Oral capsaicin administered to participants in one study enhanced salty taste sensations, thereby lowering daily salt intake and subsequent blood pressure (29) but a systematic review found no impact on blood pressure or heart rate (30). A preliminary study of enteric-coated oral capsaicin suggests it may decrease visceral hyperalgesia and improve bloating in patients with irritable bowel syndrome (6), but supplementation with capsicum for burning mouth syndrome was associated with significant GI side effects (7).

Another study of oral capsaicin suggests it can alleviate oral mucositis pain from cancer therapy, but this relief was temporary and not complete (8). There is continued controversy over whether active constituents of capsicum act as a carcinogen, co-carcinogen, or anti-carcinogen (9) (10) (11) (12) , and effects may be concentration-dependent (9). In vitro studies have shown cytotoxic effects against breast (13), bladder (14), prostate (15), and oral cancer cell lines (16), and multidrug-resistant lymphoma (17). However, a human case-control study suggests an increased risk for gastric cancer with dietary capsaicin (18). Therefore, more studies are needed to clarify the roles of capsaicin in relationship to cancer.

Food Sources

Fruits of capsicum pepper

Purported Uses and Benefits
  • Digestion
  • Circulation
  • Diabetes
  • Weight control
Mechanism of Action

Capsaicin is the compound responsible for the irritant effects of capsicum (10). Perceived heat from capsaicin when ingesting cayenne is caused by activation of transient receptor potential vanilloid subfamily member 1 (TRPV1), located in neurons on the tongue (4). Capsinoids lack this sensory quality because they are hydrolyzed as they cross the oral mucosa (4). Potential thermogenic effects also involve TRPV1-receptor activation on vagal afferents in the gut (4). Capsaicin may induce energy expenditure by enhancing core body and skin temperature and influencing substrate oxidation, but these effects can vary with body composition (3) (5). In response to high-salt stimuli, oral capsaicin administration enhanced insula and orbitofrontal cortex (OFC) metabolic activity in participants, reversing salt intensity-dependent differences in the metabolism of the insula and OFC (29).

Vasodilator effects are attributed to the release of calcitonin gene-related peptide (CGRP). Depletion in CGRP leads to a subsequent increase in blood pressure (21). Interactions between capsaicin and cyclosporin suggest modulation of P-gp and CYP3A gene expression and increased cyclosporin bioavailability via CYP3A inhibition (22). Lignan glycosides isolated from capsicum pepper appear to have strong scavenging activity against free radicals (20).

In vitro and animal studies suggest capsaicin causes cell-cycle arrest and apoptosis in both ER+ and ER− breast cancer cells by modulating the EGFR/HER-2 pathway (13). Orally administered capsaicin slowed prostate cancer cell growth by downregulating androgen receptor expression and inhibiting PSA transcription (15). In bladder cancer, capsaicin mediates cell death through ROS production and mitochondrial depolarization (14). Conversely in certain concentrations, capsaicin may promote colorectal metastasis by triggering ROS production and modulating Akt/mTOR and STAT-3 pathways (9).

Contraindications

Cayenne should be avoided in women who are pregnant or breastfeeding, as there have been cases of dermatitis in nursing infants (23).

Adverse Reactions

Common (oral): GI irritation, referred gastric pain (7).

Case reports
Hypertension: Reported in two men following ingestion of large amounts of chili peppers (21) (24).
Gastric cell exfoliation, bleeding: Ingestion of dietary capsicum in healthy volunteers caused gastric cell exfoliation and bleeding (25).
Erythematous dermatitis: In two infants shortly after breastfeeding from mothers who had ingested food flavored with red pepper (23).
Reversible Cerebral Vasoconstriction Syndrome: In a 24-year-old woman after exposure to pepper spray on her face, characterized by recurrent thunderclap headaches (31).

Herb-Drug Interactions
  • Immunosuppressants (cyclosporin): Concurrent capsaicin should be avoided in transplant patients to minimize risk of kidney or liver toxicities as well as neurotoxicity. In animal models, chronic high-dose capsaicin use increased cyclosporin bioavailability (22).
  • Antihypertensives: Capsaicin may affect their actions (21) or increase incidence of cough associated with ACE inhibitors (26).
  • Antiplatelet drugs: Animal models indicate capsaicin has antiplatelet effects (27). Clinical relevance has yet to be determined.
  • CYP450 3A substrates: Animal models indicate capsaicin may alter drug absorption and metabolism (22). Clinical relevance has yet to be determined.
  • P-gp substrates: Animal models indicate capsaicin may alter drug absorption and metabolism (22).Clinical relevance has yet to be determined.
  • Theophylline: Animal models indicate that concurrent capsaicin administration may increase absorption (28). Clinical relevance has yet to be determined.
  • Oral coadministration of other drugs: Capsaicin causes mucosal vasodilation, and may thereby alter the uptake of other drugs (22).
Dosage (OneMSK Only)
References
  1. Chaiyasit K, Khovidhunkit W, Wittayalertpanya S. Pharmacokinetic and the effect of capsaicin in Capsicum frutescens on decreasing plasma glucose level. J Med Assoc Thai. Jan 2009;92(1):108-113.
  2. Whiting S, Derbyshire E, Tiwari BK. Capsaicinoids and capsinoids. A potential role for weight management? A systematic review of the evidence. Appetite. Oct 2012;59(2):341-348.
  3. Yoneshiro T, Aita S, Kawai Y, et al. Nonpungent capsaicin analogs (capsinoids) increase energy expenditure through the activation of brown adipose tissue in humans. Am J Clin Nutr. Apr 2012;95(4):845-850.
  4. Snitker S, Fujishima Y, Shen H, et al. Effects of novel capsinoid treatment on fatness and energy metabolism in humans: possible pharmacogenetic implications. Am J Clin Nutr. Jan 2009;89(1):45-50.
  5. Ludy MJ, Moore GE, Mattes RD. The effects of capsaicin and capsiate on energy balance: critical review and meta-analyses of studies in humans. Chem Senses. Feb 2012;37(2):103-121.
  6. Bortolotti M, Porta S. Effect of red pepper on symptoms of irritable bowel syndrome: preliminary study. Dig Dis Sci. Nov 2011;56(11):3288-3295.
  7. Petruzzi M, Lauritano D, De Benedittis M, et al. Systemic capsaicin for burning mouth syndrome: short-term results of a pilot study. J Oral Pathol Med. Feb 2004;33(2):111-114.
  8. Berger A, Henderson M, Nadoolman W, et al. Oral capsaicin provides temporary relief for oral mucositis pain secondary to chemotherapy/radiation therapy. J Pain Symptom Manage. Apr 1995;10(3):243-248.
  9. Yang J, Li TZ, Xu GH, et al. Low-concentration capsaicin promotes colorectal cancer metastasis by triggering ROS production and modulating Akt/mTOR and STAT-3 pathways. Neoplasma. 2013;60(4):364-372.
  10. Bode AM, Dong Z. The two faces of capsaicin. Cancer Res. Apr 15 2011;71(8):2809-2814.
  11. Lin CH, Lu WC, Wang CW, et al. Capsaicin induces cell cycle arrest and apoptosis in human KB cancer cells. BMC Complement Altern Med. 2013;13:46.
  12. Hwang MK, Bode AM, Byun S, et al. Cocarcinogenic effect of capsaicin involves activation of EGFR signaling but not TRPV1. Cancer Res. Sep 1 2010;70(17):6859-6869.
  13. Thoennissen NH, O’Kelly J, Lu D, et al. Capsaicin causes cell-cycle arrest and apoptosis in ER-positive and -negative breast cancer cells by modulating the EGFR/HER-2 pathway. Oncogene. Jan 14 2010;29(2):285-296.
  14. Yang ZH, Wang XH, Wang HP, et al. Capsaicin mediates cell death in bladder cancer T24 cells through reactive oxygen species production and mitochondrial depolarization. Urology. Mar 2010;75(3):735-741.
  15. Mori A, Lehmann S, O’Kelly J, et al. Capsaicin, a component of red peppers, inhibits the growth of androgen-independent, p53 mutant prostate cancer cells. Cancer Res. Mar 15 2006;66(6):3222-3229.
  16. Motohashi N, Wakabayashi H, Kurihara T, et al. Cytotoxic and multidrug resistance reversal activity of a vegetable, ’Anastasia Red’, a variety of sweet pepper. Phytother Res. Apr 2003;17(4):348-352.
  17. Motohashi N, Kurihara T, Wakabayashi H, et al. Biological activity of a fruit vegetable, “Anastasia green”, a species of sweet pepper. In Vivo. Sep-Oct 2001;15(5):437-442.
  18. Lopez-Carrillo L, Lopez-Cervantes M, Robles-Diaz G, et al. Capsaicin consumption, Helicobacter pylori positivity and gastric cancer in Mexico. Int J Cancer. Aug 20 2003;106(2):277-282.
  19. Wahyuni Y, Ballester AR, Sudarmonowati E, et al. Metabolite biodiversity in pepper (Capsicum) fruits of thirty-two diverse accessions: variation in health-related compounds and implications for breeding. Phytochemistry. Aug 2011;72(11-12):1358-1370.
  20. Lee DY, Lee DG, Cho JG, et al. Lignans from the fruits of the red pepper (Capsicum annuum L.) and their antioxidant effects. Arch Pharm Res. Oct 2009;32(10):1345-1349.
  21. Patane S, Marte F, Di Bella G, et al. Capsaicin, arterial hypertensive crisis and acute myocardial infarction associated with high levels of thyroid stimulating hormone. Int J Cardiol. May 1 2009;134(1):130-132.
  22. Zhai XJ, Shi F, Chen F, et al. Capsaicin pretreatment increased the bioavailability of cyclosporin in rats: Involvement of P-glycoprotein and CYP 3A inhibition. Food Chem Toxicol. Sep 4 2013;62C:323-328.
  23. Cooper RL, Cooper MM. Red pepper-induced dermatitis in breast-fed infants. Dermatology. 1996;193(1):61-62.
  24. Patane S, Marte F, La Rosa FC, et al. Capsaicin and arterial hypertensive crisis. Int J Cardiol. Oct 8 2010;144(2):e26-27.
  25. Myers BM, Smith JL, Graham DY. Effect of red pepper and black pepper on the stomach. Am J Gastroenterol. Mar 1987;82(3):211-214.
  26. Hakas JF, Jr. Topical capsaicin induces cough in patient receiving ACE inhibitor. Ann Allergy. Oct 1990;65(4):322-323.
  27. Wang JP, Hsu MF, Teng CM. Antiplatelet effect of capsaicin. Thromb Res. Dec 15 1984;36(6):497-507.
  28. Bouraoui A, Toumi A, Ben Mustapha H, et al. Effects of capsicum fruit on theophylline absorption and bioavailability in rabbits. Drug Nutr Interact. 1988;5(4):345-350.
  29. Li Q, Cui Y, Jin R, et al. Enjoyment of Spicy Flavor Enhances Central Salty-Taste Perception and Reduces Salt Intake and Blood Pressure. Hypertension. Dec 2017;70(6):1291-1299.
  30. Shirani F, Foshati S, Tavassoly M, Clark CCT, Rouhani MH. The effect of red pepper/capsaicin on blood pressure and heart rate: A systematic review and meta-analysis of clinical trials. Phytother Res. 2021 Nov;35(11):6080-6088.
  31. Thottempudi N, Kovalev D, Munder SP, et al. Reversible Cerebral Vasoconstriction Syndrome Following Exposure to Oleoresin Capsicum “Pepper Spray”. J Stroke Cerebrovasc Dis. 2021 Oct;30(10):106006.
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