Future Aspects for Cannabinoids in Breast Cancer Therapy

Terézia Kisková, Felicitas Mungenast, Mária Suváková, Walter Jäger, Theresia Thalhammer

CBD; Cannabis sativa; THC; breast cancer; cannabidiol; cannabinoid receptor; delta-9-tetrahydrocannabinol

Open source ↗Read full paper (PDF) ↗

Key takeaways

An expert-reviewed field guide to fascia and the living body.

Language

Svenska/English

Explore

Articles
Research
Podcast
Concepts
Q&A
Search

Channels

RSS
Grading methodology
Ask the guide

Publisher

About
Press & media
Press contacts
Press kit
Atlasbalans ↗
Privacy
Cookies

Press / to search · g a articles · g r research · g p podcast

Cannabinoids may inhibit tumor progression and metastasis across various types of breast cancer cells

02Breast cancer cells often express high levels of CB2 receptors, making them a potential therapeutic target

03These compounds appear to induce apoptosis and block the cancer cell cycle in preclinical models

04Certain hormone therapies like tamoxifen may partially exert their effects by binding to cannabinoid receptors

Cannabinoids may have the potential to slow breast cancer progression by influencing tumor cell growth and spread through the endocannabinoid system.

Abstract

Cannabinoids (CBs) from Cannabis sativa provide relief for tumor-associated symptoms (including nausea, anorexia, and neuropathic pain) in the palliative treatment of cancer patients. Additionally, they may decelerate tumor progression in breast cancer patients. Indeed, the psychoactive delta-9-tetrahydrocannabinol (THC), non-psychoactive cannabidiol (CBD) and other CBs inhibited disease progression in breast cancer models. The effects of CBs on signaling pathways in cancer cells are conferred via G-protein coupled CB-receptors (CB-Rs), CB1-R and CB2-R, but also via other receptors, and in a receptor-independent way. THC is a partial agonist for CB1-R and CB2-R; CBD is an inverse agonist for both. In breast cancer, CB1-R expression is moderate, but CB2-R expression is high, which is related to tumor aggressiveness. CBs block cell cycle progression and cell growth and induce cancer cell apoptosis by inhibiting constitutive active pro-oncogenic signaling pathways, such as the extracellular-signal-regulated kinase pathway. They reduce angiogenesis and tumor metastasis in animal breast cancer models. CBs are not only active against estrogen receptor-positive, but also against estrogen-resistant breast cancer cells. In human epidermal growth factor receptor 2-positive and triple-negative breast cancer cells, blocking protein kinase B- and cyclooxygenase-2 signaling via CB2-R prevents tumor progression and metastasis. Furthermore, selective estrogen receptor modulators (SERMs), including tamoxifen, bind to CB-Rs; this process may contribute to the growth inhibitory effect of SERMs in cancer cells lacking the estrogen receptor. In summary, CBs are already administered to breast cancer patients at advanced stages of the disease, but they might also be effective at earlier stages to decelerate tumor progression.

Newsletter

Get the weekly fascia brief

A short letter every Monday — one new article, one study worth pausing on, and one thought from the week.

The brief is on the way

We're finishing the first issue. Back soon — meanwhile, the latest pieces live on the articles page.

Cite this study

APA: Terézia Kisková, Felicitas Mungenast, Mária Suváková, Walter Jäger, & Theresia Thalhammer (2019). Future Aspects for Cannabinoids in Breast Cancer Therapy. https://fasciaresearchdatabase.com/future-aspects-for-cannabinoids-in-breast-cancer-therapy/
MLA: Terézia Kisková, et al. "Future Aspects for Cannabinoids in Breast Cancer Therapy." 2019, https://fasciaresearchdatabase.com/future-aspects-for-cannabinoids-in-breast-cancer-therapy/.
Chicago: Terézia Kisková et al. 2019. "Future Aspects for Cannabinoids in Breast Cancer Therapy.". https://fasciaresearchdatabase.com/future-aspects-for-cannabinoids-in-breast-cancer-therapy/