Tony Mazzulli, an associate professor at the University of Toronto medical school and deputy chief microbiologist and infectious diseases specialist at Mount Sinai Hospital in Toronto, explains.
The concept of antibiotic immunity is a misnomer that can lead people to believe that they may become "immune" or "resistant" to an antibiotic if they take it too frequently or inappropriately. This notion stems from a misunderstanding in the general public of the concept of antibiotic resistance.
It is not people who become immune or resistant to an antibiotic. Rather it is the bacteria responsible for infections that become resistant. The purpose of an antibiotic is to kill--or at least inhibit the growth of--bacteria to quell an infection. Bacteria have been around for thousands of years and have had to survive in hostile environments. As a result, they are able to adapt and have a number of mechanisms for survival, one of which is the development of resistance to antibiotics.
Misuse or overuse of antibiotics selects for resistant bacteria. In a bacterial infection, billions of bacteria are present. Taking an antibiotic will kill or inhibit those bacteria that are susceptible to its effects and leave behind a subpopulation of bacteria that are resistant to the antibiotic. These remaining bacteria can survive and continue to grow. If they then spread from person to person, they may become the norm, and all future infections caused by these resistant bacteria will withstand the original antibiotic, rendering it useless for treatment. For many infections, patients often begin to feel better before all the bacteria have been eliminated. But it is important to complete a full course of antibiotics, even if one¿s symptoms have improved, to ensure that as many bacteria as possible are destroyed.
Bacteria have a variety of mechanisms by which they become resistant to antibiotics, depending on the particular antibiotic (or class of antibiotic) and the type of bacteria involved. Because antibiotics work differently to attack an essential function of bacteria, it is necessary to consider both the phenotypic mechanism of resistance and the underlying genotypic mechanism of resistance.
From a physical or biochemical perspective, there are a number of factors that contribute to antiobiotic resistance. First, the cell wall of a bacterium can be altered so that an antibiotic cannot penetrate it. Second, some bacteria produce enzymes that can destroy antibiotics before they can work. Third, certain bacteria have developed mechanisms known as efflux pumps, which are able to "eject" antibiotics from the bacterial cell before they have a chance to exert any effect. Finally, the antibiotic target site within the bacteria can be altered. In this situation, when an antibiotic enters the bacterial cell it must bind to its intended target in order to have an effect on the bacteria. If the target within the bacteria has been changed to make this binding impossible, the bacteria will be resistant to the medicine¿s effects.
Underlying the phenotypic mechanisms of antibiotic resistance are the genetics of antibiotic resistance. Bacteria, like other living organisms, possess DNA that codes for the proteins and enzymes it requires for survival. Changes to the DNA can result in alterations in the final proteins or enzymes, which in turn can lead to antibiotic resistance. A common genetic mechanism for the development of antibiotic resistance is the acquisition of tiny fragments of DNA known as plasmids or transposons. Transposons may code for a specific antibiotic-inactivating enzyme, which, when produced by the bacteria, destroys an incoming antibiotic before it has an opportunity to work. These tiny fragments may be passed directly from one bacterium to another by a process known as conjugation. Alternatively, small viruses may attack certain bacteria and inject DNA fragments by a process known as transduction.
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Add CommentIf one takes Nitric Oxide with antibiotics, does that not stop the bacteria responsible for infections from becoming resistant to antibiotics??
Reply | Report Abuse | Link to thisbcmcneil@shaw.ca
This is important information for people to see now, almost 7 years after this was written. Many people go in to see their healthcare provider to get antibiotics -and are not satisfied when told that they have a viral infection that will not be helped by an antibiotic. People really believe that antibiotics are a magic bullet that will help any infection. This article mentioned that the common cold will not be helped by an antibiotic, but did not mention that in most cases either will bronchitis, viral pharyngitis, and the early stages of sinusitis. Much more education concerning this needs to be disseminated, as well as info regarding rebuilding the immune system with probiotics following antibiotic therapy. Thank you.
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