Does Alcohol Weaken the Immune System? Yes, If You Drink Too Much

Therefore, more studies looking at the effects of ethanol metabolites in vivo are needed. Acetaldehyde has also been shown to affect NFκB-induced cytokine production in various liver cells. Finally, acetaldehyde disrupts intestinal epithelial barrier function and increases paracellular permeability which plays a crucial role in the pathogenesis of alcoholic liver disease by a tyrosine kinase-dependent mechanism (Sheth, Seth et al. 2004).

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The dendritic cell (DC), which plays a critical role in T cell activation and initiation of adaptive immune responses, is another innate immune cell affected by ethanol. DCs uptake antigens in peripheral tissues which leads to their maturation, and then travel to draining lymph nodes where they present them to T cells (Janeway 2008). Similarly, consumption does alcohol suppress immune system of 10% (w/v) ethanol in tap water ad libitum for 2 days in mice resulted in decreased bone marrow DC generation, decreased expression of CD80 and CD86, impaired induction of T cell proliferation, and a decrease in IL-12 production (Lau, Abe et al. 2006). (A) The innate immune response is a very fast, pathogen-non-specific, first line of defense mechanism.

Opposing Effects of Alcohol on the Immune System

Acute alcohol intoxication impairs the antigen-presenting ability of these cells (Mandrekar et al. 2004). In addition, alcohol markedly affects the differentiation of dendritic cells in blood and tissues (Ness et al. 2008). The alcohol-induced defects in dendritic cell function include reduced levels of CD80 and CD86 on the cells’ surface (which are necessary to induce activation of T-cells) as well as reduced production of IL-12, which is critical for stimulating naïve CD4+ T-cells to become IFN-γ–producing Th1 cells. The innate immune response to a pathogen is followed by an adaptive immune response that is activated only after the body is exposed to the pathogen for the first time and which is specific to that one pathogen. The innate immune response orchestrated by all these components provides the first line of defense against invading pathogens and plays a key role in the activation and orientation of adaptive immunity, as well as in the maintenance of tissue integrity and repair. Only if a pathogen can evade the different components of this response (i.e., structural barriers as well as cell-mediated and humoral responses) does the infection become established and an adaptive immune response ensues.

Effect of alcohol consumption on systemic markers of inflammation

They note, too, that a fully functioning immune system is vital to the success of conventional chemotherapy. The clinical management of all of these conditions may be more challenging in individuals who misuse alcohol because of coexisting immune impairment. Steatotic liver disease develops in about 90% of people who drink more than 1.5 to 2 ounces of alcohol per day. Heavy drinking can also lead to a host of health concerns, like brain damage, heart disease, cirrhosis of the liver and even certain kinds of cancer.

Higher Vulnerability to Disease

While your body is metabolizing alcohol, it has a lower ability to fight off infections and viruses, making you more vulnerable to developing a cold or more serious condition. To this end, heavy drinkers have been shown to exhibit an increase in both IgA and IgM levels when compared to both moderate and light male drinkers. The adaptive immune system can be further subdivided into cell-mediated immunity and humoral immunity.

Alcohol consumption and infection

Lastly, NK cells are abundant in the liver (Gao et al. 2009) and recognize cells that have low levels of a protein called class I major histocompatibility complex (MHC) on their surface. This reduced class I MHC expression can result from infection with certain types of viruses. In contrast to the innate immunity, which can be induced by any kind of antigen, https://ecosoberhouse.com/ adaptive immune responses are specific to individual antigens. An antigen-specific T-cell response is initiated by interactions between antigen presenting cells (such as DCs) and naïve T cells and is optimized by engagement of co-stimulatory molecules and cytokines for antigen-specific T-cell activation (Mogensen 2009; Newton and Dixit 2012).

Still, the evidence is more robust for considering how much you’re drinking, rather than what you’re drinking. Experts suggest sticking to serving sizes and reflecting why you want that drink in the first place. Transfer of bacteria or bacterial products from the lumen of the gastrointestinal tract to mesenteric lymph nodes and into the portal circulation. This disease is characterized by the acute onset of hypoxaemia, bilateral infiltrates on chest X-rays and no evidence of left ventricular heart failure.

• To this end, heavy drinkers have been shown to exhibit an increase in both IgA and IgM levels when compared to both moderate and light male drinkers.
• Alcohol can have a range of harmful effects on the body, which can diminish a person’s immune response and put them more at risk for COVID-19.
• For example, alcohol can reduce the ability of respiratory epithelium cells to remove mucous from the lungs, which can directly damage lung tissue and weaken the proper functioning of the lungs over time.
• What’s more, a short period of binge drinking — let’s say a month — can cause a reduction in T cells.
• Several studies have also shown that the lungs are highly vulnerable to the effects of alcohol.

In another study, adolescent mice that consumed ethanol intermittently (3 g/kg) for two weeks, showed that this consumption pattern leads to an activation of TLR4 signaling pathways, an up-regulation of cytokines and proinflammatory mediators, in addition to synaptic and myelin alterations. TLR4-deficient mice prevented such neuroinflammation, synaptic and myelin alterations, as well as long-term cognitive alterations [105]. Maintaining gut homeostasis—beneficial microbiota composition—plays a critical role in immune responses.

In addition, alcohol significantly inhibits PMN phagocytic activity as well as the production or activity of several molecules (e.g., superoxide or elastase) that are involved in the PMNs’ bactericidal activity (Stoltz et al. 1999), so that overall bactericidal activity ultimately is reduced. They produce immune molecules called antibodies or immunoglobulins that they can either display on their surface or secrete. The antibodies can recognize and interact with antigens, and each B-cell produces antibodies that recognize only one specific antigen.

• In vivo studies have confirmed that binge drinking with a blood alcohol concentration (BAC) of approximately 0.4% can reduce the production of various inflammatory cytokines including interleukin-6 (IL-6), IL-10, and IL-12.
• Thus, alcohol interferes with various processes necessary to deliver neutrophils to the site of an infection, such as expression of a molecule called CD18 on PMNs in response to inflammatory stimuli and PMN “hyperadherence” to endothelial cells following appropriate stimulation (MacGregor et al. 1988).
• Alcohol affects many organs, including the immune system, with even moderate amounts of alcohol influencing immune responses.