Abstract
Simple SummaryThe endocannabinoid system (ECS) is a complex signaling pathway system involved in the regulation of multiple functions in both normal tissues and cancer. Δ9-tetrahydrocannabinol and cannabidiol are plant-derived cannabinoids that possess some efficacy against adult cancer, in part via modulation of the ECS, and may be less toxic agents compared to other treatments used in oncology. To date, there are minimal studies that have investigated these drugs in the pediatric cancer setting. Indeed, there are currently no preclinical or clinical studies examining the effects of cannabinoids in pediatric brain cancer, although there is some evidence that they can alleviate symptoms associated with childhood cancer therapy, such as vomiting and nausea. Given there is accumulating evidence that cannabis use during adolescence is associated with poor mental and cognitive health, there is a present and urgent need to investigate the safety and efficacy of cannabinoids in pediatric oncology to provide guidance to families and physicians.Cannabinoids are a group of chemicals that bind to receptors in the human body and, in turn, modulate the endocannabinoid system (ECS). They can be endogenously produced, synthetic, or derived from the plant Cannabis sativa L. Research over the past several decades has shown that the ECS is a cellular communication network essential to maintain multiple biological functions and the homeostasis of the body. Indeed, cannabinoids have been shown to influence a wide variety of biological effects, including memory, pain, reproduction, bone remodeling or immunity, to name a few. Unsurprisingly, given these broad physiological effects, alterations of the ECS have been found in different diseases, including cancer. In recent years, the medical use of cannabis has been approved in different countries for a variety of human conditions. However, the use of these compounds, specifically as anticancer agents, remains controversial. Studies have shown that cannabinoids do have anticancer activity in different tumor types such as breast cancer, melanoma, lymphoma and adult brain cancer. Specifically, phytocannabinoids Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD) has been shown to induce apoptosis and inhibit proliferation of adult cancer cells, as well as modulate angiogenesis and metastasis. Despite increasing evidence that cannabinoids elicit antitumor effects in adult cancers, there is minimal data available on their effects in children or in pediatric cancers despite public and clinical demand for information. Here we describe a comprehensive and critical review of what is known about the effects of cannabinoids on pediatric cancers, highlight current gaps in knowledge and identify the critical issues that need addressing before considering these promising but controversial drugs for use in pediatric oncology.
Highlights
Throughout history, cannabinoids have featured ubiquitously in modern and ancient cultures for their potent biological and psychoactive properties, giving rise to their therapeutic use in folk medicine
These compounds act via the endocannabinoid system (ECS), which was originally discovered through research to understand the psychoactive effects of THC
We aim to provide a better picture of the current knowledge regarding the potential use of cannabinoids for the treatment of pediatric cancers, the unsolved problems, and what future evidence is needed before considering these promising but controversial drugs for use in pediatric oncology
Summary
Throughout history, cannabinoids have featured ubiquitously in modern and ancient cultures for their potent biological and psychoactive properties, giving rise to their therapeutic use in folk medicine. More than 100 cannabinoids derived from the plant Cannabis sativa (phytocannabinoids) have been identified [1], ∆9-tetrahydrocannabinol (THC) and cannabidiol (CBD) attract the most attention due to their natural abundance and potency. These compounds act via the endocannabinoid system (ECS), which was originally discovered through research to understand the psychoactive effects of THC. They are lipid-based signaling molecules that are synthesized from arachidonic acid present in the cellular membrane [2] These endocannabinoids mediate different biological functions by binding and stimulating CB1R and CB2R [3,4]. We aim to provide a better picture of the current knowledge regarding the potential use of cannabinoids for the treatment of pediatric cancers, the unsolved problems, and what future evidence is needed before considering these promising but controversial drugs for use in pediatric oncology
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