Abstract
Cachexia is a common term for the wasting symptoms which may appear in almost every chronic illness, such as AIDS, tuberculosis, and cancer. Cancer cachexia (CCA) is a result of the interaction between the host and the tumor, mainly manifested in short-term wasting, malnutrition, and so on. Due to the chronic food shortages, absorption dysfunction and metabolic disorders, all of these eventually lead to hypoimmunity, organ failure, and higher susceptibility to pathogenic microorganisms. And then increased morbidity and mortality rates as well as reduced tolerance to anti-cancer treatments will be resulted in patients with CCA. Up to now, no standard guidelines have been established for cachexia treatment. Moreover, progestagens, the only drugs approved by FDA for cancer-related cachexia, can only increase adipose tissue and have not been confirmed to augment lean body mass. Cannabinoid, such as Δ-9-tetrahydrocannabinol (THC) and cannabidiol, is one of a class of diverse chemical compounds. Previous studies have showed that cannabinoid had considerable potential to improve the appetite, body weight, body fat level, caloric intake, mood, quality of life in kinds of diseases. This review will elaborate the anti-CCA role of cannabinoid and explore that whether cannabinoid is effective for CCA and provide a basis for guiding clinical drug use.
Keywords: cancer, cachexia, cannabinoid, review, clinical trials
Introduction
CCA has attacked approximately 50%-80% of the cancer patients1 and been implicated in 25% of cancer deaths 2. In addition, as a multifactorial syndrome, CCA is frequently unrecognized and undertreated, and cannot be fully reversed only by nutritional support3. Abnormalities in protein and amino acid metabolism and the appearance of energy balance disorder (energy intake is decreased and/or energy expenditure is increased) form the essence of CCA. All these unfavorable changes may further lead to a variety of metabolic disorders. Subsequently, malnutrition may affect the effectiveness of drug therapy; it can increase chemotherapy toxicity, decreasing the positive influence on tumor treatment, and even leads to elevated treatment-related mortality. Nevertheless, the increase in food intake does not prevent this negative outcome, and presently, there is no effective therapy for cachexia. At present, however, the main treatment for CCA is Radiotherapy, chemotherapy, surgical resection and other treatment programs, which can in turn aggravate the weakness of cancer patients. for primary tumors.
Successful tumor treatment requires the implementation of a comprehensive multidisciplinary approach. Hence, anti-CCA treatment must address the following important therapeutic aspects: (1) correction of the cachexia status; (2) control of the symptoms; (3) amelioration of bodily functions; and (4) improvement of the quality of life. Generally speaking, anti-CCA treatment not only can improve the quality of life (QOL), but also promote the effectiveness of cancer treatment.
Therefore, the treatment of CCA has entered a vicious circle, and urgent need to develop effective new drugs.
The medical application of Cannabinoid
There are at least 113 cannabinoids and 120 synthetic cannabinoids identified in cannabis4. Cannabinoid acts on the corresponding receptors in cells, then alter neurotransmitter release in the brain, and eventually led to varying pharmacologic responses based on formulation and patient characteristics.
In recent years, researchers have gradually found that cannabinoid, in addition to recreational use, also have possible applications as the supportive therapy or palliative medicine. In German pharmaceutical legislation, from the very beginning cannabinoid (nabiximol) is only approved for multiple sclerosis, but now it is widely used for neuropathic pain, cancer-associated pain and AIDS-related cachexia. Dronabinol, a synthetic form of THC and the most notable cannabinoid, has been approved by the FDA to increase appetite for AIDS and antiemetic for chemotherapy5, 6. Moreover, previous studies also showed that cannabinoid can alleviated pain, nausea, and vomiting in patients with multiple sclerosis 7, HIV 8, anorexia nervosa 9, obesity 10, and type 2 diabetes 11, and a variety of neurological disorders, such as epilepsy12, Tourette's syndrome13, Alzheimer's disease14, and Huntington's disease15. Furthermore, this bioactive substance attracted intensive research interest for application in cardiac cachexia treatment16.
Cannabinoid Receptors and Cannabinoids
Nevertheless, whether its effects will be identical in CCA requires further confirmation. The mechanism of cannabinoid activity is mainly related to G-protein coupled cannabinoid 1 and 2 receptors (CB1/2). CB1 are mostly found in the brain, such as cortex, hippocampus, basal ganglia and cerebellum, and then have corresponding effects on memory, cognition, depression, anxiety, feeding, movement and nociception17, 18. The psychotropic side effect of cannabinoid, such as euphoria, excitement, and altered sensory perception, is the main reason why it has not been recognized as a legitimate drug for so many years. Therefore, on the one hand, the use of CB1 play some spiritual role in further regulating the central nervous system (CNS), on the other hand, selective block CB1 may significantly reduce the mental side effects of drugs from cannabinoid. CB2 was previously thought to be expressed only in the immune system, however, recent studies found that CB2 receptors also can be expressed in CNS19, such as ventral posterior nucleus of the thalamus and spinal nerve ligation20, which may also be a promise to regulate CNS function. Rowley S21 et al. did an interesting experiment and found that CB1-knockout mices showed more seizures susceptibility than CB2-knockout mices, but none of them exhibit seizures, but 30% of the double-knockout mice showed behavioral epilepsy.
Pharmacodynamics mechanism of cannabinoids
The analgesic mechanism of cannabis22 may derived from the regulation the activity of rostral ventromedial medulla oblongata neurons, relieve pain pathway and regulate the anti-inflammatory effects through prostaglandin synthesis inhibition. Moreover, Borgelt LM summed up the multiple clinical studies containing different THC doses and found that THC did have analgesic effects on patients with multiple diseases.
Dronabinol and nabilone have already been approved by the FDA for the using of chemotherapy‐induced nausea and vomiting (CINV), anorexia associated with weight loss in patients with the acquired immunodeficiency syndrome.
Above on, it can exert a moderating effect on obesity, metabolism, and pain by activating pathways that are cannabinoid receptors scattered all over the body23. In addition, marijuana was also found to exert novel anticancer properties through induction of cancer cell death. A considerable number of studies24, 25 showed that THC and other cannabinoids can induce apoptosis of glioma cells, slowing the growth of different types of tumors. cannabinoid was approved by the FDA for use as an appetite stimulant and was also shown to cause emotional excitement26. As early as 1974, Davies27 found that THC improved night sleep, reduced pain, increased fatigue and confusion, and decreased elation and vigor. Then scientists27-29 discover that cannabinoid use is associated with weight gain, increased appetite, decreased nausea, improvement in mood, relief of pain, and so on. This review will explore that whether cannabinoid is effective for CCA and provide a basis for guiding clinical drug use.
RCTs related to the anti-CCA effects of cannabinoid
There have been a lot of experiments in vivo or in vitro on cannabinoid and CCA, however, in which few randomized controlled trials (RCTs) of high quality reported.
Brisbois et al. showed the results of a pilot study (NCT00316563) in 2011, and cannabinoid (THC) is being used as an appetite stimulant for treatment of cancer-induced anorexia. The results showed that compared with placebo, THC-treated patients reported premeal appetite (P = 0.05), quality of sleep (P = 0.025) and relaxation (P = 0.045) increased, and food 'tasted better' (P = 0.04) simultaneously. QOL scores was improved in the THC group but was not different from placebo. Furthermore, the changes in lean body weight of participants were not recorded in this experiment. Therefore, THC may be useful in CCA, but still require verification in larger trials.
Johnson et al. reported the findings of intractable cancer-related pain compared in THC:CBD extract and THC extract. There was statistically significant for a reduction in pain with the THC:CBD extract (0.67 points, P = 0.014) rather than the THC extract (0.32 points, P = 0.245) compared to placebo. As for NRS sleep quality or nausea scores, no significant group differences were reached. The participants ' weight changes were also not reflected in the text. Rapid concluded, THC:CBD extract may be a useful adjunctive treatment for relief of pain in patients with advanced cancer, which encourage us to explore its value in analgesic, QOL and CCA. Perhaps the differences between the experimental and placebo groups could be better reflected in longer test cycles or other conditions.
Moreover, it was a study in 2006, and Strasser et al. compared the effects of cannabis extract (CE), THC, and placebo on appetite and QOL in patients with CCA. At last, the differences of mean improvement in appetite patients taking CE and PL were not obvious (mean, 5.4 mm; SD, 24.7 mm; and mean, 5.8 mm; SD, 23.8 mm, respectively). As for THC group, the mean improvement was even 0.6 mm (SD, 18.5 mm). Besides, no differences of QOL, weight, cannabinoid-related toxicity, mood and nausea can be found between the three groups. Can we simply draw the conclusion and deny the effect of cannabinoid on CCA? More RCTs have the right to speak.
There is also a clinical trial in which patients are being recruited and another has not yet been recruited, and we are looking forward to their findings.
Direct antitumor effect of cannabinoid
Except for the palliative effects of cannabinoid in cancer patients, it also exhibits antitumor effects on a wide range of animal models of cancer. Previous studies have shown that THC, synthesized receptor agonists of CB1 and CB2, as well as endocannabinoids, all have the potential to trigger apoptosis34, monitor tumor cell growth35, combat tumor cell invasion and metastasis36, as well as resist angiogenesis37. To sum up, they may have been involved in a series of complex biological processes that eventually contribute to the progression of a variety of cancers37, 38 (glioma, melanoma, and pancreatic carcinoma, hepatocellular carcinoma, head and neck squamous cell carcinoma and so on), and may provide a therapeutic target to inhibit the tumors progression.
As we know, the fundamental need to correct CCA is to control the cancer itself, so if cannabinoid has the function of fighting cancer and increasing appetite, it will undoubtedly be a bright dawn in the field of cancer nutrition therapy.
Safety issue of cannabinoid
The safety issue is still the bottom line in ascertaining the efficacy and practicality of a drug. Treatment-related AEs of cannabinoid includes nausea, fatigue, pain, anemia, dizziness, dyspnea, diarrhea, obstipation, somnolence, raised ᵞ-GT, hypercalcemia, hypotension and so on. Besides, a multi-institutional study in AIDs patients found that dronabinol use was safe and well tolerated39. Though we cannot simply speculate that there was a higher risk of AEs in the cannabinoids group, more research data are needed to demonstrate the safety of marijuana.
CCA and its outlook
CCA can occur not only at the end stage of malignancy but at any phase of its development. Weight loss should be considered a red alert for cachexia patients. Pancreatic and gastric cancer patients are high-risk groups for severe weight loss. However, patients with non-Hodgkin's lymphoma, breast cancer, acute non-lymphocytic leukemia, and sarcoma are less likely to lose weight. A weight loss of 10% can be considered as a serious problem that may cause a decrease in respiratory function. Fortunately, cachexia can be prevented and treated, and an interruption or delay of the process can substantially improve the clinical outcome of the patient. Hence, cachexia treatment consists of three critical steps: appropriate antitumor treatment, nutrition intervention, and supportive pharmacologic therapy.
Although our research on the biological characteristics and molecular mechanisms of CCA has made some achievements in the past decades, there are still many unknowns that need to be determined. For example, evaluation is required of the prognostic value of blood and urine biomarkers of cachexia patients, such as markers of muscle degradation, genetic predispositions, and those in the plasma or the adipose tissue. Furthermore, research community needs to understand if early-stage detection of cachexia tendency in cancer patients is possible, which would enable the undertaking of timely remedial measures.
Table 1.
Study ID or RCT number | Study method | Human subjects | Interventional group | Control group | Follow up (d) | Outcomes |
---|---|---|---|---|---|---|
Brisbois 201130 | parallel-group RCTs | advanced cancer patients | THC (2.5 mg, n = 24) | Placebo (n = 22) | 19 | Appetite, AEs, QOL |
Johnson 201028 | parallel-group RCTs | advanced cancer patients | THC:CBD extract (2.7 mg THC and 2.5 mg CBD, n = 60), THC extract (2.7 mg THC, n = 58) | Placebo (n = 59) | 14 | Appetite, AEs, QOL |
Strasser 200631 | parallel-group RCTs | advanced cancer patients | CE (standardized for 2.5 mg THC and 1 mg cannabidiol, n = 95) or THC (2.5 mg, n = 100) | Placebo (n = 48) | 42 | Body weight, appetite, AEs, QOL |
NCT03245658 | Crossover Assignment | pancreatic cancer patients | THC 25mg/ml and CBD 50mg/ml (n=32) | N/A | 4 weeks | Energy and protein intake, lean body mass, appetite, mortality, QOL |
NCT02802540 | parallel-group RCTs | Non-small cell lung cancer (NSCLC) patients | 1 mg nabilone | placebo | 8 weeks | Anorexia, percentage weight loss, body mass index, subjective global assessment, QOL, AEs |
Jatoi 200232 | Crossover Assignment | advanced cancer patients | (1) megestrol acetate 800 mg/d plus placebo, (2) dronabinol 2.5 mg twice a day plus placebo, or (3) both agents | N/A | 4 weeks | weight, appetite, AEs, QOL |
Cote 201633 | parallel-group RCTs | squamous cell carcinoma patients | 0.5 mg nabilone | placebo | 4 weeks | QOL, pain, nausea, appetite, AEs |
Acknowledgments
This work was supported by the National Natural Science Foundation of China, 81573003. We sincerely appreciate all the participants in this paper. We would also like to thank all the scholars whose article was cited in this paper, without their inspiration and help from the research results of these scholars, I will not be able to complete the final writing of this paper. Then we also appreciate the work of the editors and anonymous reviewers.
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