Category Archives: THC (Delta-9-Tetrahydrocannabinol)

Therapeutic potential of acidic cannabinoids: an update

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“Cannabis sativa yields a wide range of bioactive compounds, including terpenes, flavonoids, and cannabinoids.

Tetrahydrocannabinolic acid (THCA), cannabidiolic acid (CBDA), cannabigerolic acid (CBGA), and cannabichromenic acid (CBCA) are the acidic biosynthetic precursors of the neutral cannabinoids Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD), which have been the subject of much research.

This review examines the biosynthesis, decarboxylation, molecular pharmacology, and therapeutic significance of acidic cannabinoids, intending to address a significant knowledge gap. Peer-reviewed literature from major scientific databases was used in a systematic narrative review with an emphasis on investigations of acidic cannabinoid chemistry, pharmacology, pharmacokinetics, and disease-specific applications.

According to the reviewed data, acidic cannabinoids exhibit unique biological activities that distinguish them from their neutral counterparts. These include neuroprotective, anti-inflammatory, anticonvulsant, and anti-proliferative actions, which are mediated by molecular targets such as serotonin 5-HT1A receptors, cyclooxygenase-2 (COX-2), transient receptor potential (TRP) channels, and peroxisome proliferator-activated receptor-γ (PPARγ).

Acidic cannabinoids are more appealing for therapeutic usage in children and the elderly, considering that they are not intoxicating like THC; however, this distinction applies primarily to non‑heated consumption. Chemical instability, low bioavailability, and a dearth of controlled human trials impede clinical translation despite their potential.

According to the findings, acidic cannabinoids are an underutilized yet potentially valuable class of precision medicines.

In this study, we outline existing understanding on acidic cannabinoids, discuss their production and transformation, and identify research needs that could influence cannabis science research.”

https://pubmed.ncbi.nlm.nih.gov/41545891

https://link.springer.com/article/10.1186/s42238-026-00387-y

“Anti-Cancer Potential of Cannabinoids, Terpenes, and Flavonoids Present in Cannabis”

https://pmc.ncbi.nlm.nih.gov/articles/PMC7409346


Phytocannabinoids influence phospholipid metabolism of melanoma cells: Modulation of in vitro effects of the UVA irradiation

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“The high metastatic potential of melanoma and its poor prognosis in advanced stages motivate the search for innovative therapeutic approaches. Therefore, this study aimed to assess the effects of phytocannabinoids (cannabidiol-CBD, and cannabigerol-CBG) on the structure and function of the melanoma cell membrane, phospholipid metabolism, and the respective metabolites generated in ROS- and enzyme-dependent reactions.

Biochemical and physicochemical parameters were analyzed in melanoma cells (SK-MEL-5) cultured for 24 h with CBD (5 µM), CBG (1 µM), and their combination applied either alone or after UVA irradiation (365 nm) at a dose of 18 J/cm².

Phytocannabinoids have been shown to partially counteract changes in the levels of cell membrane components, including phospholipid polyunsaturated fatty acids (PUFAs) and sialic acid, consequently affecting surface charge density and lipid rafts, which may be a potential target for anticancer therapy. Furthermore, by changing the activity of lipolytic enzymes (PLA2/COX1/2/LOX-5), phytocannabinoids partially enhanced the UVA-induced decrease in free PUFAs. Consequently, the levels of lipid mediators, including endocannabinoids and eicosanoids, were altered.

The use of phytocannabinoids led to a significant increase in 2-AG levels, while the combined action of CBD/CBG reduced the levels of pro-inflammatory eicosanoids. UVA radiation increased the expression of G-protein-coupled receptors in melanoma cells (CB1/2/TRPV1/PPARγ), while the combined use of CBD/CBG reduced their expression.

Therefore, the results have shown that CBD and CBG modulate the metabolism of phospholipids and PUFAs by altering the functions of melanoma cell membranes, potentially offering options for the use of these phytocannabinoids in the integrative biomedicine treatment of melanoma.”

https://pubmed.ncbi.nlm.nih.gov/41529510

“Phytocannabinoids modulate endocannabinoid levels, supporting antitumor activity.”

“In summary, the results of this study indicate that phytocannabinoids (CBD and/or CBG) alter the functionality of melanoma cell membranes by modeling the structure and metabolism of phospholipids and free PUFAs, which may offer potential benefits in integrated melanoma therapy.”

https://www.sciencedirect.com/science/article/pii/S0753332226000351?via%3Dihub

Evaluation of the antibacterial and antioxidant potential of the endophytic fungus EFY14 from Cannabis sativa L. leaves through metabolomics and molecular docking

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“Endophytic fungi are prolific sources of natural antioxidants and antibacterial agents.

This study aims to isolate and identify the endophytic fungus EFY14 from Cannabis sativa L. leaves and to evaluate the antibacterial and antioxidant activities of its culture filtrates.

Non-targeted metabolomics was employed to chemically profile the EFY14 crude extract, a potential biological targets were predicted through molecular docking and molecular dynamics simulations. EFY14 was taxonomically identified as belonging to the Chaetomium genus.

Its extract contained 20.823 ± 1.449 mg gallic acid equivalent (GAE)/L total phenolic and 0.230 ± 0.007 mg rutin equivalent (RE)/mL total flavonoids, displaying antioxidant and antibacterial activities. Metabolomic profiling identified flavonoids and phenolic compounds, including 4′,7-dihydroxy-8-methylisoflavone, scopoletin, xanthohumol, tricin, sophoraflavanone G, prenyl glucoside, melilotoside and maltol. Molecular docking indicated potential molecular targets for these metabolites.

These findings suggest that EFY14 derived endophytic fungi from C. sativa L. may represent a novel source of antioxidant and antibacterial compounds.”

https://pubmed.ncbi.nlm.nih.gov/41527465

“In this study, a strain named Chaetomium globusum EFY14 was identified from the leaves of the Cannabis genus plants. It was determined to be a new source of antioxidants and antibacterial agents. Additionally, the Cannabidiolic acid component was detected through metabolomics. The extract is rich in phenolic and flavonoid substances and has DPPH scavenging activity as well as inhibitory activity against E.coli, B.subtilis, and S.aureus. The metabolites verified through metabolomics and molecular docking provide promising candidate substances for drug development and agricultural biological control, as well as new methods for cannabinoid synthesis.”

“This research is highly relevant for professionals in the fields of pharmaceuticals, agriculture and natural products. The identification of Chaetomium globusum. EFY14 from the Cannabis genus as a source of phenolic substances, flavonoids (such as xanthohumol, tricin) and antioxidant/antibacterial metabolites provides feasible development leads for new drugs, biological pesticides and natural antioxidants. This strain offers new strains for industrial production of antioxidant and antibacterial substances.”

https://www.tandfonline.com/doi/full/10.1080/14786419.2025.2609961

Potential Anticancer Effect of Cannabis sativa L. Dichloromethane Extract Through Oxidative Stress-Related Pathways and the Inhibition of the Migration and Invasiveness of Human Breast Cancer Cells (MDA-MB-231 and MCF-7)

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“Breast cancer remains a leading cause of cancer-related morbidity and mortality globally, highlighting the urgent need for novel therapeutic strategies.

This study investigates the molecular mechanisms underlying the anti-proliferative potential of Cannabis sativa dichloromethane extract (C. sativa DCM) on oxidative stress, apoptosis, and invasion in human breast cancer cells.

Key biomarkers, such as antioxidant enzymes (Superoxide Dismutase (SOD) and Glutathione (GSH)), the transcription factor Nrf2, apoptotic proteins (p53, caspase-8 and 9), metalloproteinase (MMP-1 and MMP-9), and Transforming Growth Factor Beta (TGF-β) were examined. Cytotoxicity was assessed using an MTT assay in the MDA-MB-231 and MCF-7 breast cancer cell lines, with comparisons to normal skin fibroblasts (HS27). Oxidative stress biomarkers were quantified using enzymatic assays and ELISA kits, while apoptotic and anti-metastatic factors were determined by Western blotting.

Results demonstrated that C. sativa DCM extract induced significant cell death in a concentration-dependent manner, with IC50 values of 75.46 ± 0.132 μg/mL for MDA-MB-231 and 78.68 ± 0.50 μg/mL for MCF-7 cells. The extract decreased SOD and GSH levels while increasing p53 and caspase activity, confirming apoptosis activation. Additionally, C. sativa DCM inhibited migration and invasion by downregulating MMP-1, MMP-9, and TGF-β. The anti-proliferative potential of C. sativa DCM in breast cancer cells is mediated through a continuous biological pathway involving oxidative stress modulation, apoptotic signaling, and anti-invasive effects. Phytochemical analysis revealed terpenoids and steroids, including compounds like cannabidiol and tetrahydrocannabinol acid.

These findings suggest that C. sativa DCM extract holds potential as an anti-breast cancer therapeutic and warrants further preclinical and clinical investigations.”

https://pubmed.ncbi.nlm.nih.gov/41516029

Cannabis sativa L., known in many slang languages as marijuana, bhang, ganja, for instance, is an herbaceous species originating from Central Asia and widely distributed around the world. It has been used as a source of fiber, food, oil, and for its multiple curative properties, including anti-parasitic, antipyretic, antibacterial, antitumor, vermifuge, dermatic, and pain-killing properties for centuries. Phytocannabinoids, derived from cannabis, have shown anti-cancer activity in cell lines”

“Based on these research findings, we concluded that C. sativa DCM extract possesses the potential to inhibit the proliferation of breast cancer cells (MCF-7 and MDA-MB-231), while exhibiting minimal cytotoxic effect on normal skin cells Hs27.”

“Given these conclusive findings, the presence of bioactive phytochemicals in C. sativa DCM can be considered as a potential source of anti-cancer agents.”

https://www.mdpi.com/1422-0067/27/1/152


Cannabinoid Signaling and Autophagy in Oral Disease: Molecular Mechanisms and Therapeutic Implications

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“Autophagy is a well-preserved biological mechanism that is essential for sustaining homeostasis by degradation and recycling damaged organelles, misfolded proteins, and other cytoplasmic detritus.

Cannabinoid signaling has emerged as a prospective regulator of diverse cellular functions, including immunological modulation, oxidative stress response, apoptosis, and autophagy. Dysregulation of autophagy contributes to pathogenesis and treatment resistance of several oral diseases, including oral squamous cell carcinoma (OSCC), periodontitis, and gingival inflammation.

This review delineates the molecular crosstalk between cannabinoid receptor type I (CB1) and type II (CB2) activation and autophagic pathways across oral tissues. Cannabinoids, including cannabidiol (CBD) and tetrahydrocannabinol (THC), modulate key regulators like mTOR, AMPK, and Beclin-1, thereby influencing autophagic flux, inflammation, and apoptosis.

Experimental studies indicate that cannabinoids inhibit the PI3K/AKT/mTOR pathway, promote reactive oxygen species (ROS)-induced autophagy, and modulate cytokine secretion, mechanisms that underline their dual anti-inflammatory and anti-cancer capabilities. In addition, cannabinoid-induced autophagy has been shown to enhance stem cell survival and differentiation, offering promise for dental pulp regeneration. Despite these promising prospects, several challenges remain, including receptor selectivity, dose-dependent variability, limited oral bioavailability, and ongoing regulatory constraints.

A deeper understanding of the context-dependent regulation of autophagy by cannabinoid signaling could pave the way for innovative therapeutic interventions in dentistry. Tailored cannabinoid-based formulations, engineered for receptor specificity, tissue selectivity, and optimized delivery, hold significant potential to revolutionize oral healthcare by modulating autophagy-related molecular pathways involved in disease resolution and tissue regeneration.”

https://pubmed.ncbi.nlm.nih.gov/41516397

“Cannabinoids are a diverse class of bioactive lipophilic compounds derived from Cannabis sativa and other plant species, as well as synthesized endogenously and pharmacologically, and have attracted significant attention for their immunomodulatory, anti-inflammatory, antioxidant, and anticancer effects.”

“Cannabinoid-based treatments show promise for managing oral diseases by controlling inflammation and promoting tissue regeneration through specific pathways.”

https://www.mdpi.com/1422-0067/27/1/525

Medicinal cannabis plant extract (NTI164) modifies epigenetic, ribosomal, and immune pathways in paediatric acute-onset neuropsychiatric syndrome

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“Paediatric acute-onset neuropsychiatric syndrome (PANS) is a syndrome of infection-provoked abrupt-onset obsessive-compulsive disorder (OCD) or eating restriction.

Based on the hypothesis that PANS is an epigenetic disorder of immune and brain function, a full-spectrum medicinal cannabinoid-rich low-THC cannabis (NTI164) was selected for its known epigenetic and immunomodulatory properties.

This open-label trial of 14 children with chronic-relapsing PANS (mean age 12·1 years; range 4-17; 71 % male) investigated the safety and efficacy of 20 mg/kg/day NTI164 over 12 weeks. Clinical outcomes were assessed using gold standard tools. To define the biological effects of NTI164, blood samples were collected pre- and post-treatment for bulk and single-cell transcriptomics, proteomics, phosphoproteomics, and DNA methylation.

NTI164 was well-tolerated, and 12 weeks of treatment decreased the mean Clinical Global Impression-Severity (CGI-S) score from 4·8 to 3·3 (p = 0·002). Significant improvements were observed in emotional regulation (RCADS-P, p < 0·0001), obsessive-compulsive disorder (CYBOCS-II, p = 0·0001), tics (YGTSS, p < 0·0001), attention-deficit hyperactivity disorder (Conner’s, p = 0·028), and overall quality of life (EQ-5D-Y, p = 0·011).

At baseline, the multi-omic approach revealed that leucocytes from patients with PANS had dysregulated epigenetic (chromatin structure, DNA methylation, histone modifications, transcription factors), ribosomal, mRNA processing, immune, and signalling pathways. These pathways were significantly modulated by NTI164 treatment.

NTI164 shows promise as a disease-modifying therapeutic for PANS.

Multi-omics reveal broad epigenetic and immune dysregulation in patients, which was modified by NTI164, presenting epigenetic machinery as a therapeutic target in PANS.”

https://pubmed.ncbi.nlm.nih.gov/41513541

Cannabis sativa L. has long been used in medicine, and increasingly proposed as a treatment of psychiatric disorders and neurodevelopmental disorders (NDDs).”

https://www.neurotherapeuticsjournal.org/article/S1878-7479(25)00306-X/fulltext

Ultrasound-Assisted Green Extraction of Antioxidant and Antimicrobial Resins from Cannabis sativa for Potential Pharmaceutical Applications

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Objective: To develop a green and efficient ultrasound-assisted extraction (UAE) process to obtain bioactive resins from Cannabis sativa with potential pharmaceutical applications, optimizing extraction parameters to maximize antioxidant capacity and total polyphenol content.

Significance: UAE using ethanol under mild temperature and time conditions as a green technique was applied to reduce solvent consumption, energy demand, and extraction time while preserving thermolabile bioactive compounds. Optimizing UAE enables the recovery of cannabinoid- and terpene-rich extracts that may serve as natural active pharmaceutical ingredients or functional excipients for drug development. This study integrate a Doehlert-based optimization of UAE with a functional evaluation of antioxidant efficiency and antimicrobial activity, providing a comprehensive framework for the development of cannabis-derived pharmaceutical ingredients.

Methods: A Doehlert experimental design combined with response surface methodology was employed to optimize temperature and extraction time. The optimized extract was characterized for its phytochemical composition. Antimicrobial activity was evaluated against Gram-positive and Gram-negative bacterial strains to assess potential therapeutic relevance.

Results: Under optimal conditions (54.5 °C, 28 min 25 s), the extract showed a total phenolic content of approximately 0.11 mg gallic acid/mg resin and an IC50 value of about 0.24 mg resin/mL extract, indicating enhanced antioxidant performance compared to non-optimized conditions. Also, showed selective bactericidal activity against Staphylococcus aureus ATCC 25923 and Staphylococcus epidermidis ATCC 12228, while Gram-negative strains remained resistant.

Conclusions: UAE extraction efficiently recovered antioxidant and selectively antimicrobial compounds from Cannabis sativa resins under mild, eco-friendly conditions, supporting their potential use as bioactive ingredients in pharmaceuticals.”

https://pubmed.ncbi.nlm.nih.gov/41489477

https://www.tandfonline.com/doi/full/10.1080/03639045.2025.2612300

Cross-sectional comparison of cannabis use in adults with neuropathic versus non-neuropathic pain

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Introduction: Cannabis has been decriminalized by many states and shows promise in treating both neuropathic and non-neuropathic pain through its interaction with the endocannabinoid system and anti-inflammatory effects. This study examines differences in cannabis use for adults whose most bothersome chronic pain condition is neuropathic vs. non-neuropathic.

Materials and methods: Survey data were collected from adults receiving care at a pain clinic. Participants completed demographic questions and standardized self-report measures (PROMIS Pain Intensity/Interference and the ID-Pain tool). Participants’ most bothersome pain condition(s) were categorized as neuropathic or non-neuropathic pain based on ID-Pain scores. Linear regression models assessed differences in frequency and duration of cannabis product use between groups, adjusting for age and sex.

Results: A total of 113 individuals were recruited; following exclusions and missing data, 104 participants (61.5% female) were included in the final analysis. Of these, 36.5% reported neuropathic pain as their most bothersome, and 63.5% reported non-neuropathic pain. Those with neuropathic pain reported significantly more days per month of Tetrahydrocannabinol/Cannabidiol (THC/CBD) combination (b = 5.96, p = 0.02), Cannabidiol-only (CBD-only) (b = 8.82, p = 0.03), and Tetrahydrocannabinol-only (THC-only) products (b = 7.04, p = 0.02). They also used THC-only (b = 0.97, p < 0.05) and THC/CBD (b = 1.09, p < 0.01) products more frequently per day. Neuropathic pain was positively associated with pain intensity (b = 4.10, p < 0.001) and interference (b = 4.95, p < 0.001).

Discussion: Adults whose most bothersome pain condition(s) were neuropathic used cannabis, especially THC and THC/CBD combination products, more frequently than those whose most bothersome pain was non-neuropathic. Participants with neuropathic pain also reported higher levels of pain intensity and interference. Further longitudinal research is needed to confirm whether increased use of THC-rich cannabis provides symptom relief for adults with neuropathic pain.”

https://pubmed.ncbi.nlm.nih.gov/41487383

“Cannabis interacts with the endocannabinoid system, making it a potential treatment for neuropathic pain.”

“Because previous studies found THC products to be more effective in managing neuropathic pain by interacting with the endocannabinoid system, it is possible that our participants also experienced benefit; this could explain their higher use of THC containing products.

https://www.frontiersin.org/journals/pain-research/articles/10.3389/fpain.2025.1677391/full

Effect of patient marijuana use on perioperative opioid requirements

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“The effect of chronic marijuana use on patients is unknown, including in the surgical setting. Marijuana produces many effects on the body, which should be considered when providing medical care.

Chronic marijuana use may affect surgical opioid requirements. To explore this possibility, an observational study was completed by conducting a retrospective chart review of patients who underwent surgery with general anesthesia.

Patients were identified in the electronic medical record via self-reporting as marijuana users (users) or nonmarijuana users (nonusers). Users and nonusers were case-matched based on age, gender, weight, and procedure. After case matching, 570 patients’ charts were analyzed, and intraoperative opioid, intraoperative propofol, and post-anesthesia care unit opioid requirements were compared.

Marijuana users required less intraoperative opioids (mean [standard deviation (SD)] 27.2 [20.5] morphine milligram equivalents [MMEs]) compared to those who were marijuana nonusers (31.3 [22.1] MME).

These results show a statistically significant difference in the intraoperative opioid requirement between case-matched users and nonusers (p = 0.02), with p = 0.013 after statistical adjustment for racial differences between the marijuana user and nonuser cohorts. Users and nonusers required similar amounts of intraoperative propofol (242.2 [220.2] and 257.8 [250.9], respectively) and post-operative opioids (7.3 [6.0] and 8.0 [9.0], respectively). The differences in intraoperative propofol and post-operative opioid requirements were not different statistically with p-values of 0.43 and 0.31, respectively.

Based on this study population, marijuana users required less intraoperative opioids when compared to case-matched marijuana nonusers, with no difference in intraoperative propofol or post-operative opioid requirements.

Perspective: Typical preoperative screening includes queries about patient substance use including marijuana, but details such as frequency and length of use are infrequently asked. The addition of these details to the assessment may provide improved understanding of a patient’s surgical opioid requirements.”

https://pubmed.ncbi.nlm.nih.gov/41123263

https://wmpllc.org/ojs/index.php/jom/article/view/3918

Medical Cannabis and Opioid Receipt Among Adults With Chronic Pain

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Question  Is participation in the New York State (NYS) medical cannabis program associated with reduced prescription opioid receipt among adults with chronic pain?

Findings  In this cohort study of 204 adults with chronic pain, participation in the NYS medical cannabis program, defined as monthly dispensation of medical cannabis reported by the dispensary pharmacist, was associated with significantly reduced prescription opioid receipt.

Meaning  These findings suggest that participation in a pharmacist-directed medical cannabis program may help reduce prescription opioid receipt among adults with chronic pain.

Abstract

Importance  Medical cannabis is increasingly considered a substitute for prescription opioid medications for chronic pain, driven by the urgent need for opioid alternatives to combat the ongoing epidemic.

Objective  To determine the association between participation in the New York State (NYS) medical cannabis program and prescription opioid receipt among adults with chronic pain.

Design, Setting, and Participants  This cohort study used data from the NYS Prescription Monitoring Program (PMP) from September 2018 through July 2023. Adults prescribed opioids for chronic pain who were newly certified for medical cannabis use in NYS were recruited from a large academic medical center and nearby medical cannabis dispensaries in the Bronx, New York. Monthly dispensation of medical cannabis to study participants was monitored for 18 months. Data analyses were performed from February 3, 2025, to July 15, 2025.

Exposure  Portion of days covered each month by pharmacist report of dispensed medical cannabis.

Main Outcomes and Measures  Prescription opioid receipt, defined as NYS PMP-reported prescription monthly opioid dispensation (mean daily dose in morphine milliequivalents [MME]), was assessed with marginal structural models adjusted for time-invariant and time-varying confounders, including self-reported unregulated cannabis use. Nonprescribed opioid use was also assessed during the study period.

Results  Among 204 participants, the mean (SD) age at baseline was 56.8 (12.8) years, and 113 (55.4%) were female. At baseline, participants’ mean (SD) pain severity score was 6.6 (1.8) out of 10, and mean (SD) pain interference score was 6.8 (1.9) out of 10. Baseline mean (SD) daily MME was 73.3 (133.0). During the 18-month follow-up period, participants’ mean (SD) daily MME decreased to 57.4 (127.8). This reduction in mean daily MME was associated with the monthly portion of days covered with medical cannabis; compared with no medical cannabis dispensed, participants dispensed a 30-day supply of medical cannabis were exposed to 3.53 fewer MME per day (β = −3.53; 95% CI, −6.68 to −0.04; P = .03).

Conclusions and Relevance  In this cohort study, participation in NYS’s medical cannabis program was associated with reduced prescription opioid receipt during 18 months of prospective follow-up, accounting for unregulated cannabis use.”

https://jamanetwork.com/journals/jamainternalmedicine/article-abstract/2842414