The Chemistry of Copaiba
The synergy of chemical constituents in Copaiba makes it unique. Copaiba’s main chemical component is beta-caryophyllene, a chemical similar to cannabinoids found in cannabis that may protect nerve cells and have benefits for the cardiovascular and immune systems.* However, while caryophyllene is responsible for some of the bioactive properties of Copaiba, many of the other properties of the oil are thanks to the diterpenes uniquely found in Copaiba.
Copaiba is extracted from copaiba trees in the Amazon rainforest. The essential oil is steam distilled from the copaiba oleoresin, a substance made up of resin and essential oils. The collection process of the oleoresin is unique among essential oils—it is tapped from the tree in a similar way to how maple trees are for their syrup. The oleoresin is then steam distilled to produce the essential oil.
Our Favorite Uses
Copaiba is a incredibly versatile oil that has been used for centuries. See some of our favorite ways to use Copaiba below:
Copaifera officinalis trees are evergreen trees native to Central and South America, where it flourishes best in tropical rainforest habitats (though it can grow in both wet and dry forests). The trees themselves are tall, and can grow to more than 100 feet tall.
The Amazon rainforest represents over half of the planet’s remaining rainforests. doTERRA is proud to partner with a large network of copaiba harvesters that sustainably collect their oleoresin and ensure that the trees will be around for years to come.
*These statements have not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure, or prevent any disease.
The Endocannabinoid System
The endogenous cannabinoid system (Endocannabinoid System), the namesake of the plant that led to its discovery, isn’t a controversial topic at all, but one of the most important physiologic systems involved in human health. As recent research is discovering, it is also one of the body systems that can be most positively influenced through the use of essential oils.
Endocannabinoids and the receptors that they communicate with to induce physiological responses are found all throughout the body. Your brain, vital organs, immune cells, and even connective tissue contain endocannabinoid receptors, which are tasked with maintaining the stability of our body’s internal processes while dealing with fluctuations in the external environment. Immune response, inflammatory response, memory, and even appetite are influenced by these receptors. They are a vital link between the brain and the rest of the body, coordinating communication by different cell types.
CB1 & CB2 Receptors
While we speculate that there may be several different types of cannabinoid receptors, we have currently identified two different subtypes: CB1, which is expressed primarily on the nerve cells in the brain, and CB2, which is expressed predominantly on white blood cells within the immune system. Research has shown that CB1 activation influences memory processing and pain regulation, but it is also induces psychoactive effects.1 CB2 receptors support healthy nervous system function, proper immune function, and have soothing and relaxing properties on the body (similar to that of CB1), primarily through their ability to regulate inflammation.2,3 But perhaps most interesting, CB2 activation does not have the same psychoactive side effects as does its counterpart, CB1.4
There is a breadth of research that suggests terpenoid compounds found in many essential oils can have a vast influence on these receptors, but the research is particularly strong in regards to one specific sesquiterpene. Recent research has demonstrated that the bicyclic sesquiterpene beta-caryophyllene has the ability to bind to CB2 receptors (5). What this means is that along with its cellular and skin-health supporting properties, due to its activation of CB2 receptors, beta-caryophyllene may also support healthy nervous and immune function, and have similar soothing and relaxing properties on the body (similar to that prompted by CB1 activation), without the potential psychoactive side effects.*
While beta-caryophyllene is primarily known for its presence in the essential oils extracted from Black Pepper, Clove, Melissa, and Rosemary, the best source is actually the lesser-known oil Copaiba. GC-MS assessments have shown that many sources of Copaiba essential oil are composed of more than 50% beta-caryophyllene, and not surprisingly, the properties of this oil extracted from the oleoresin of Copaifera species trees is becoming a popular topic of research. There have been over 70 peer-reviewed studies published in scientific journals in the last few years evaluating the benefits of Copaiba, several of which focus on its CB2-binding properties and the associated health benefits.
Using various usage models, beta-caryophyllene-rich Copaiba essential oil, through its activation of CB2 receptors, has the ability to positively influence our health in ways we are just beginning to understand.
A Chemist's Perspective: Cannabinoids, Cannabis, and Caryophyllene
It has come to my attention that there has been a lot of confusion recently surrounding the properties of cannabinoid compounds found in certain oils. Individuals with ties to the CBD oil industry would have you believe that beta-caryophyllene, a compound found in Copaiba oil and Black Pepper oil, is not a cannabinoid. The same individuals would also have you believe that cannabidiol (CBD) oil never contains the psychoactive compound tetrahydrocannabinol (THC) or any of its isomers. This is not surprising, because both of these claims promote the CBD oil industry. Unfortunately, this misinformation has been perpetuated to the point that many people are convinced that it is accurate, despite strong evidence to the contrary.
I’ve prepared this article in hopes that I can set the facts straight. Having worked as a medicinal chemist for 15 years, I’ve learned a great deal about the chemical properties of all kinds of essential oils. I’ve even conducted my own chemical analyses of hemp, CBD, and cannabis oil in my lab at doTERRA. In this article, I will discuss the chemical properties of cannabinoid compounds found in the various cannabis oils and compare them with beta-caryophyllene. Beta-caryophyllene is the main compound found in Copaiba, doTERRA’s alternative to cannabis.
Beta-Caryophyllene is a Cannabinoid
There is a wealth of information available in the scientific literature regarding the classes of cannabinoid compounds and the receptors involved in the endocannabinoid system. For several years now, beta-caryophyllene has been known to be a cannabinoid. But don’t just take my word for it. Back in 2008, a study by J. Gertsch et al. rolled off the press with the unambiguous headline, “Beta-caryophyllene is a dietary cannabinoid.”1 The study was published in Proceedings of the National Academy of Sciences of the United States of America, a prestigious scientific journal. Since then, at least a dozen more papers have been published on the subject, reemphasizing the fact that beta-caryophyllene is a cannabinoid.2-13
By definition, a cannabinoid is any ligand, molecule, or class of molecules that acts on either or both of the currently identified cannabinoid receptors, CB1 and CB2. Interestingly, these two receptors produce significantly different physiological responses when activated. CB1 activation, caused by THC and other similar cannabinoids, results in a psychoactive drug high. On the other hand, CB2 activation by beta-caryophyllene (BCP) has produced results showing some promising therapeutic benefits. These include supporting a healthy inflammatory response, soothing discomfort, and positively affecting mood without the psychoactive side effects associated with other cannabinoids.2-4,10 It is true that the positive benefits associated with BCP have also been observed using other cannabinoids, such as THC, cannabidiol, and cannabinol, but using these compounds can also come with unwanted psychological effects, especially in the case of THC.
Types of Cannabinoids
There are three distinct classes of cannabinoids: endocannabinoids, phytocannabinoids, and synthetic cannabinoids. Synthetic cannabinoids are found in certain pharmaceutical products designed to help with glaucoma, appetite stimulation, antiemetics, and other disease-linked targets. Endocannabinoids, on the other hand, are produced naturally by the body. These molecules are mainly composed of amines and amides. Endocannabinoids are pharmacologically similar to some phytocannabinoids, but vary greatly in their chemical structure. This gives different endocannabinoids the ability to produce different neurological responses, even when administered in similar therapeutic doses. The primary function of endocannabinoids is to modulate normal physiological functions.
The last class of cannabinoids is known as the phytocannabinoids. These are molecules that are produced by plants such as Cannabis and Copaifera. The Cannabis species produces the commonly known molecules THC and CBD, while the Copaifera plant family produces only BCP. Although BCP differs significantly from other cannabinoids in its structure, it nonetheless reacts selectively with the CB2 receptor, thus defining it as a cannabinoid.2 However, it is chemically distinct from other cannabinoids, which is why it cannot cause a positive result on a drug test. BCP is classified as a sesquiterpene based on its chemical structure and makeup. Research on BCP is ongoing and will continue to add to our understanding of its potential value.
Cannabidiol (CBD) oil can contain the psychoactive tetrahydrocannabinol (THC)
To be legally marketable, CBD oil is not supposed to contain any discernable amount of THC.14 However, our own internal investigation involving analytical testing and evaluation has found that various CBD oils on the market do contain significant levels of THC and therefore could very likely trigger a psychoactive response and/or positive drug test. Our evaluation has also shown that commonly purchased brands of CBD oil can vary greatly in their claimed CBD content. In fact, in some samples we were not able to identify the presence of any CBD at all. In contrast, my analyses have shown that doTERRA oils are 100% free of THC, and oil compositions are consistent between batches.
In summary, this article is not intended to be a complete picture of the benefits of beta-caryophyllene nor an outline of the properties of the endocannabinoid system. Rather, it is a statement of scientifically-accepted facts aimed to clear up the misleading information on the molecules in question. My hopes are that reading this article will help individuals in their personal research on cannabinoids and, most importantly, their decisions about which oils to use in their daily life.
Dr. Cody Beaumont, PhD
Director, Analytical Services & Quality Control
By Dr. Cody Beaumont, PhD
Director, Analytical Services & Quality Control