Alcohol & cancer: Evidence to action PMC

alcohol and cancer study

Previous research has shown that there are several modifiable risk factors — such as smoking, alcohol use, obesity, and a sedentary lifestyle — that can increase a person’s cancer risk. Unsurprisingly, cigarettes remained the number-one risk factor, with about 19 percent of cancer cases studied attributable to smoking. Excess body weight came in second at 7.6 percent, while alcohol wasn’t far behind with 5 percent of cancer cases in men and women over 30 attributable to drinking. Researchers have known about the relationship between heavy alcohol consumption and the risk for esophageal and other upper digestive and respiratory tract cancers since the beginning of the last century. Furthermore, substantial epidemiological evidence (as reviewed in this article) accrued over the past 50 years has shown that alcohol contributes to the development of these cancers.

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This response is characterized by inflammatory reactions involving various mediators, including chemokines and cytokines that are produced by a variety of immune cells, such as macrophages, neutrophils, NK cells, and dendritic cells. Macrophages and neutrophils can exhibit antitumor activity as well as suppress immune response against tumor cells (i.e., have immunosuppressive activity). NK cells can destroy tumors on contact, and their antitumor function can be further stimulated by cytokines. Dendritic cells are important in presenting molecules that identify a cell as harmful or foreign (i.e., antigens) to other immune cells and are a bridge between the innate immune response and the B-cell and T-cell responses that characterize the adaptive immune system.

9. Liver Cirrhosis

More than 100 empirical studies have established a positive correlation between moderate or chronic ethanol consumption and the incidence of breast cancer in pre- and post-menopausal women [44]. It has been reported that alcohol intake of more than 27 drinks per week increases breast cancer risk in pre-menopausal women irrespective of the type of alcoholic beverage consumed [44]. Among post-menopausal women, consumption of more than six drinks per week increases breast cancer risk. The association between alcohol and breast cancer is attributed to the increased levels of estrogen in women consuming alcohol. Other plausible mechanisms include enhanced mammary gland susceptibility to carcinogenesis, increased mammary carcinogen DNA damage, and greater metastatic potential of breast cancer cells [6].

What are the modifiable risk factors linked to cancer?

  1. Another in vivo study in rats showed that acute alcohol exposure may cause ten-fold increase in lung metastases due to marked suppression of NK cell activity [136].
  2. It may lead to the development of HCC either through direct (genotoxic) or indirect mechanisms (development of cirrhosis) [6].
  3. The mechanisms by which alcohol consumption may decrease the risks of some cancers are not understood and may be indirect.
  4. Use of N-nitrosobis(2-oxopropyl)amine (BOP) in the Syrian golden hamster [102] and 7,12-dimethylbenzanthracene (DMBA) in rats [103] are used for the development of pancreatic neoplasms.
  5. Cigarettes have long been a cause of cancer, and remained in the top spot — about 19% of cancer cases included were attributable to smoking.

That’s an additional 185,000 possible alcohol-related cancers, or 5% of all the world’s cancers. The researchers also investigated whether gender modified the effect of alcohol intake on the risk for each type of cancer. Statistically significant gender differences existed only for esophageal and liver cancer—where the alcohol-related risk was higher in women than in men—but not for other types of cancer.

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Chronic alcohol consumption can recruit specific white blood cells (monocytes and macrophages) to the tumour microenvironment. These white blood cells produce pro-inflammatory cytokines, such as tumour necrosis factor α (TNF-α) and the interleukins IL-1, IL-6, and IL-8 [31,33], which activate oxidant-generating enzymes leading to downstream formation of ROS [30]. ROS can act as messengers https://rehabliving.net/laxative-abuse-side-effects-and-long-term-health/ in intracellular signalling pathways to activate the transcription factor nuclear factor κB (NF-κB). ROS can further promote cell proliferation and metastasis by interfering with mitogen-activated protein kinase signalling pathways and upregulating vascular endothelial growth factor (VEGF) and monocyte chemotactic protein-1 (MCP-1) which can stimulate angiogenesis [31].

Can people’s genes affect their risk of alcohol-related cancers?

Case–control studies nested within prospective cohorts were categorised as case–control studies. We also recorded whether the reference category of nondrinkers included occasional drinkers or not. With the present meta-analysis, we aim to provide a more global picture of the association between alcohol drinking and a large variety of cancers. Here, we review the organs involved in alcohol-related cancer, underlying potential molecular mechanisms, and current challenges as well as implications of in vivo experimental models used to study cancer pathogenesis in alcoholics. In addition, we describe our current limited understanding of the influence of alcohol on the host immune system and the development of possible effective immunotherapy for cancer patients with alcohol abuse. Because these alleles are allocated at birth and are independent of other lifestyle factors (such as smoking), they can be used as a proxy for alcohol intake, to assess how alcohol consumption affects disease risks.

alcohol and cancer study

(2) Studies that reported findings expressed as odds ratio (OR), relative risk (RR) or hazard ratio (or reporting sufficient data to compute them) for at least two levels of alcohol consumption vs nondrinkers and/or occasional drinkers. During the last few years, more advanced techniques including genome editing, programmable nucleases, including zinc-finger nucleases (ZFNs) and transcription-activator-like effector nucleases (TALENs) have been developed to generate cancer models [123]. One study reported the use of TALEN-approach to edit the β-catenin gene in mouse liver to generate an efficient and physiologic liver cancer mouse model [124]. However, both ZFNs and TALENs are nuclease-based designs that are difficult to construct and have varying targeting efficiency.

Ethanol also has immunomodulatory properties and evidence suggests that it may modify innate immune responses by affecting antigen recognition and intracellular signalling18. A study19 from the northeast region of India has suggested that alcohol and tobacco act as important risk factors in the causation of head and neck cancer. Epidemiologic studies from the last decades unequivocally acknowledge chronic alcohol consumption as an important risk factor for the development of different types of cancers. Many prospective and case-control studies show a two to three-fold increased risk for the esophageal cancer in people who consume 50 g of alcohol a day (equal to approximately a half bottle of wine), compared with non-drinkers [13,14,15,16]. Several scientific and clinical studies have shown an association between chronic alcohol consumption and the occurrence of cancer in humans.

In addition, the highest ethanol dose altered the expression of several genes that play prominent roles in regulating melanoma metastasis (i.e., the IL6, Nfkb, snail1, E-cadherin, Kiss1, Nm23-m1, and Nm23-m2 genes). Our meta-analysis supports the hypothesis of a protective effect of moderate alcohol consumption on the risk of renal cell cancer. The evidence for an association between alcohol and cancer of the endometrium and ovary is inconsistent, and the number of studies investigating the association of alcohol with cancer of the cervix, thyroid and brain is too small to draw any conclusion. Moreover, the studies on cancer of the bladder, adenocarcinoma of the oesophagus and gastric cardia indicate an absence of association. We found a positive significant association between high doses of alcohol consumption and risk of cancer of the gallbladder that was homogeneous across the studies. Ethanol–the principal form of alcohol in alcoholic beverages–is a widely-used, psychoactive, and dependence-producing substance.

The study found that among healthy participants, those with high alcohol consumption or smoking had a pronounced decrease of antigen-specific antibody production in vitro. Cancer patients who were heavy drinkers, in contrast, did not show any antigen-specific antibody production in vitro. The author suggested that the decreased antigen-specific antibody production in the cancer patients could be related to upregulation of suppressive cells in these patients (Wustrow 1991). Many observational studies have been conducted to identify and define the risks from drinking alcohol and cancer development. Some limitations in these studies have been identified, such as lack of sufficient adjustment of confounding factors, for example tobacco smoking and alcohol consumption are both common risk factors for oral cavity cancer. There are also concerns around reverse causality, with the reference categories of alcohol non-drinkers possibly including former drinkers who still have an elevated risk of cancer.

The Cancer Council noted some participants in the study identified that zero alcohol products could become a “gateway” to future alcohol use. Lead researcher and research fellow at The George Institute for Global Health, Dr Leon Booth, says this research provides early insights into the potential consequences of the proliferation of zero alcohol products and their marketing in environments where young people are. Separately, this expert insight explains three strategies organizations can use to leverage oncology pharmacists and improve cancer care. Similarly, these ready-to-use slides outline the major structural shifts impacting cancer care, as well as the strategic decisions that oncology leaders will need to make. Growth in demand and costs, as well new technologies and disruptors, will change how cancer care is delivered, experienced, and paid for in the future.

alcohol and cancer study

In a first sensitivity analysis, we limited the analysis to studies reporting adjusted estimates only, and results did not materially change (Supplementary Material S3). In a second sensitivity analysis, we excluded the estimates from studies that included occasional drinkers in the reference category, and again results did not materially change (Supplementary Material S3). Notably, the association between alcohol and prostate cancer emerged more clearly in those sensitivity analyses than in the overall analysis. A list of all included studies by site is reported in Supplementary Material S4, and study-specific relative risk estimates for increasing level of alcohol consumption by cancer site are reported in Supplementary Material S5. An important requirement for effective immune responses against tumor is the presence of mature and functional DCs that recognize, process, and present tumor antigen. In HCC patients, the nature of DC abnormality, including defects in phenotypes, surface markers, endocytic capacity, and cytokine production has been clearly stated in various studies [145].

alcohol and cancer study

Tumor metastasis is the ability of tumor cells to spread from their original site to other sites in the body and to re-establish growth, a new blood supply, and tumor colonies at the new location. (1) Cells that escape from a primary solid tumor invade into the surrounding normal tissue by passing through the basement membrane and extracellular matrix (ECM). Several factors are involved in the invasion process, including the ability to activate enzymes called matrix metalloproteinases (MMP), which are important for the tumor cells to degrade basement membranes and underlying stroma. (2) The escaped cells reach the blood either directly by actively passing through endothelial cells that line the blood vessels or passively through the lymphatic system, which ultimately carries the tumor cells to the blood. (3) Once in the blood, the tumor cells exit into tissues at the secondary site from small capillaries by passing through endothelial cells and then invading the basement membrane of the ECM.

There likely are additional cancers linked to drinking alcohol, Dr. Orlow says, but more well-designed studies (epidemiological and other) are needed to prove that alcohol is a contributing risk factor. Numerous changes need to be made to raise public awareness of the fact that drinking alcohol raises the risk of several types of cancer. Alcohol is causally linked to many cancer types, but trends in alcohol consumption patterns change over time and between geographic regions.

Holcomb and colleagues (2012) examined the effects of various diets and supplements on the growth of estrogen receptor–positive mammary tumor cells (derived from mammary tumor virus-Wnt-1 transgenic mice) inoculated subcutaneously into female C57BL/6J mice that had their ovaries removed. The diets and alcohol were started when the animals were 8 weeks old and continued for 27 weeks. Estrogen pellets were implanted after 19 weeks of alcohol consumption, and tumors were implanted after 22 weeks. The results on tumor growth were similar to those obtained by Hong and colleagues (2011), with the high-fat diet and alcohol promoting tumor growth and estrogen suppressing it. Tumor growth was greatly inhibited in the mice receiving a high-fat diet as well as estrogen supplements. The calorie-restricted diet also inhibited tumor growth independent of the effects of alcohol and estrogen supplementation.

Thus, the tumor micro-environment is important in determining estrogen-receptor status and the effects of alcohol on breast cancer. However, additional studies are warranted, because estrogen receptor–negative breast cancer generally is more aggressive, and patients have a worse prognosis than patients with estrogen receptor–positive breast cancer. Moreover, conversion from estrogen receptor alpha positive to estrogen receptor alpha negative can occur (Hoefnagel et al. 2010). The data suggest that inhibition of NK-cell cytolytic activity in mice consuming 20 percent ethanol does not lead https://rehabliving.net/ to enhanced metastasis following inoculation of B16BL6 melanoma. This lack of interaction between alcohol consumption and NK-cell cytolytic activity in B16BL6 melanoma lung metastasis was further confirmed in another strain of mice (i.e., beige mice) that naturally have low NK cytolytic activity (Spitzer et al. 2000). In other experiments to determine how ethanol decreases metastasis of B16BL6 melanoma, either isolated tumor cells grown in the presence of 0.3 percent ethanol or tumor cells from alcohol-consuming mice were inoculated into water-drinking mice (Blank and Meadows 1996).

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