There is an increasing number of infectious diseases circulating around the world, from influenza to SARS to COVID-19. Your immune system plays a key role in fighting off these infectious diseases. So how does the immune system work to fight viruses and bacteria? What factors affect your immunity? This article will answer all your questions with diagrams.
The First Immune Barrier: The Skin and Nose Keep Viruses Out
The immune system’s first barrier includes skin, nose hair, tears, etc. These are excellent physical barriers that can keep pathogens out of the body. If the body is a country, then the first barrier could be considered its “defensive wall.”
Skin
The skin has structures like sebaceous glands and sweat glands. Sebaceous glands secrete fatty acids to kill bacteria, while sweat glands produce salt that transforms the surface of the skin into an environment where bacteria are less likely to survive.Eyes
Tears wash away foreign bodies that reach the surface of the eyeball.Nose
Nose hairs block larger foreign bodies from entering the nostrils, while nasal mucus traps smaller viruses and bacteria and expels them via sneezing.Respiratory tract
There is also mucus in the throat and respiratory tract. After the mucus traps viruses and bacteria, the tiny cilia on the walls of the airways will move the mucus that envelops the germs toward the mouth; finally, they are coughed up as phlegm.The Second Immune Barrier: The Body Secretes Key Antiviral Substance
The second immune barrier is like the “garrison” patrolling the “defensive wall.” Unlike the “defensive wall” that blocks or drives pathogens out of the body, the garrison will actively attack pathogens through the use of a few mechanisms.For example, there are epithelial cells in the nasal cavity, throat, trachea, bronchi, lungs, etc., and some epithelial cells will produce interferon in response to infection.
Innate Immune System: Rapid Response, Extensive Defense
If viruses and bacteria make it past these first two lines of defense, a sophisticated immune system is in place to fight them off. Generally speaking, the immune system can be divided into innate immunity and adaptive (acquired) immunity, which are the third and fourth immune barriers.The innate immune system is the “advanced strike force” sent by the body when it encounters an unknown infection. Compared with the adaptive immune system, it can fight a wider variety of pathogens, but the protection provided is shorter-term. Granulocytes, macrophages, natural killer cells, and the complement system are part of the innate immune system.
Granulocytes are divided into neutrophils, eosinophils, and basophils.
The number of neutrophils in the human body is the highest among the three, and they are produced at a very fast rate. They are also the first responders after infection and play the role of “general police” in innate immunity.
Eosinophils are very effective in fighting parasites. Parasites are multicellular organisms that are difficult to ingest. However, eosinophils do not destroy parasites by phagocytosis (ingesting); instead, they release chemicals that penetrate the cell membrane to attack them. Hence, the role of eosinophils is more like a “disinfector.”
Basophils trigger the body’s inflammatory response by releasing chemicals, and they are a common factor in allergic reactions. They are like “firefighters” who are involved when an area becomes inflamed (like when something is literally on fire).
The function of macrophages is to carry out phagocytosis, which can engulf pathogens in large quantities. Compared with neutrophils, macrophages are more powerful in eliminating pathogens and can fight pathogens for a longer period.
In addition to macrophages, dendritic cells also engulf pathogens.
After ingesting the pathogen, macrophages and dendritic cells will analyze it and pass relevant information to the adaptive immune system, allowing it to further deal with the enemy. These are the “communication bridge” between the innate and adaptive immune systems. Although they both have similar functions, each has its strengths. Macrophages have a stronger phagocytic ability, like “riot police,” while dendritic cells have better intelligence analysis and transmission capabilities, like “signalers” who deliver messages.
Natural killer cells are also one of the advanced troops, and their main function is to kill virus-infected cells and mutated cancer cells in the body.
Adaptive Immune System: Remember Viruses and Avoid Reinfection
The adaptive immune system is a well-trained “special force” capable of destroying certain pathogens (with immune specificity).
The innate immune system will take the lead in fighting when encountering an unknown source of infection. At the same time, it also has an important task of identifying the identity of the pathogen and notifying the adaptive immune system to dispatch troops that can quickly fight against the pathogen. These “special forces” mainly include T cells and B cells.
After the innate immune system is activated, dendritic cells and macrophages begin to engulf pathogens, analyze and identify them, and present important information to T cells.
