Read The Times Australia

Daily Bulletin

How do bacteria actually become resistant to antibiotics?

  • Written by: Mark Blaskovich, Professor, The University of Queensland
How do bacteria actually become resistant to antibiotics?

Antimicrobial resistance is one of the biggest global threats to health, food security and development. This month, The Conversation’s experts explore how we got here and the potential solutions.

“What doesn’t kill me makes me stronger”, originally coined by Friedrich Nietzsche in 1888, is a perfect description of how bacteria develop antibiotic resistance.

Contrary to a common belief, antibiotic resistance is not about your body becoming resistant to antibiotics.

Resistance arises when bacteria are exposed to levels of antibiotics that don’t immediately kill them. They develop defences that prevent the same antibiotic from harming them in the future, even at higher doses.

How bacteria adapt

The ability for bacteria to adapt lies in part with their astonishing rate of reproduction. Some species, such as Escherichia coli, can replicate as quickly as every 20 minutes, depending on the environment. One bacterium can become more than 68 billion bacteria in 12 hours.

Read more: I'm a microbiologist and here's what (and where) I never eat

However, bacteria don’t faithfully reproduce their genetic code, and mutations can slip in every generation.

While most changes are bad, sometimes they can help the bacteria grow in the presence of an antibiotic. This “new and improved” population quickly takes over.

Additional mutations enable survival at even higher antibiotic concentrations.

This evolution of resistance can be seen by growing bacteria on a large agar plate (a nutrient support that bacteria like to grow on) with zones of increasing antibiotic levels.

Watch how bacteria develop resistance to extremely high concentrations of antibiotics (Harvard Medical School).

Growth is halted when they first encounter the next zone, but once they have developed resistance they quickly expand until they reach the next region with more antibiotic.

Bacteria in your body can easily develop resistance in a similar manner during the typical seven- to ten-day course of antibiotic treatment.

They also exchange genetic material

The other key mechanism enabling bacterial resistance is the exchange of genetic information between bacteria.

In addition to the main chunk of DNA that encodes the bacterial genome, bacteria can host circular DNA snippets called plasmids. These plasmids are readily exchanged between bacteria, including different species.

Plasmid exchange usually occurs by direct physical contact between bacteria. Bacteria are promiscuous, so this can happen a lot! Once inside a bacteria, plasmids can be passed down to the next generation.

Unfortunately, plasmids are particularly good at encoding multiple resistance genes.

Read more: Rising antibiotic resistance in UTIs could cost Australia $1.6 billion a year by 2030. Here's how to curb it

4 ways bacteria resist

Bacteria develop resistance to antibiotic treatment using four main methods:

1) Keep the antibiotic out. Bacteria are good at keeping unwanted molecules from getting inside.

Gram-positive bacteria like Staphylococcus aureus have a thick cell wall enclosing a lipid membrane. Gram-negative bacteria, such as E. coli, are more difficult to kill as they have an additional outer membrane that acts as an extra barrier.

Bacteria are able to bring in the things they need to survive through these cell surfaces. Antibiotics can hijack these entry routes, but bacteria can modify the cell wall, cell membrane and entry proteins to block antibiotic penetration.

For example, bacteria increase the thickness of the cell wall to resist antibiotics like vancomycin.

Lab worker puts dropper into petri dish
Bacteria are good at keeping antibiotics out. Edward Jenner/Pexels

2. Expel the antibiotic if it gets in. Bacteria have machinery known as efflux pumps, which regurgitate unwanted molecules from within the bacteria.

Bacteria can alter the pump so it is more effective at removing the antibiotic, or they can simply make more pumps.

Resistance to macrolide antibiotics like erythromycin often involves the production of more efflux pumps.

3) Alter the antibiotic target. Antibiotics, like most other drugs, generally work by blocking the function of important enzymes within the bacteria. They specifically bind to the target like a key in a lock.

If bacteria alter the target shape by changing the DNA/protein sequence, the antibiotic (key) can no longer bind to its target (lock).

Resistance to a class of antibiotics known as fluoroquinolones (which includes ciprofloxacin) often occurs due to mutations of the enzyme targets.

4) Destroy or modify the antibiotic. Bacteria developed resistance to the original antibiotic, penicillin, by producing a protein that breaks apart the penicillin warhead.

These enzymes have evolved to keep pace with even the most recent new and improved penicillin-like antibiotics.

In response, drug developers have created molecules that specifically stop the enzyme from working, and dose these in combination with the antibiotic.

Another example of antibiotic modification is shown by resistance to a class of antibiotics called aminoglycosides. In this case, different types of enzymes chemically modify the structure of the aminoglycoside, such as the antibiotic tobramycin. Now, the key has been filed so that it no longer fits the lock.

Person holds three antibiotic capsules
Bacteria use multiple methods to attack antibiotics. Mark Fletcher/Unsplash

Bacteria vs antibiotics

While bacteria have developed mechanisms to resist antibiotics, these adaptations can come at a “fitness” cost. Bacteria may grow more slowly, or can be killed more easily by another antibiotic.

This has led to the concept of “collateral sensitivity” to prevent or overcome resistance when treating patients, by using pairs of antibiotics. Resistance to the first antibiotic increases susceptibility to the second, and vice versa.

Read more: Will we still have antibiotics in 50 years? We asked 7 global experts

In some cases, the “fitness costs” (energy and materials expended to maintain resistance) mean that resistance genes can be present, but they are not activated until exposed to an antibiotic. This makes it difficult to predict bacterial resistance by just looking at their genetic makeup.

Bacteria may get “stronger,” but they are not yet invincible. We need to take action before antibiotic resistance returns us to a pre-antibiotic era.

Read the other articles in The Conversation’s series on the dangers of antibiotic resistance here.

Authors: Mark Blaskovich, Professor, The University of Queensland

Read more https://theconversation.com/how-do-bacteria-actually-become-resistant-to-antibiotics-213451

Business News

Australian organisations are relying on business continuity plans built for a far more predictable world

Tariff escalations, supply chain fragility, geopolitical events, and the ongoing threat of cyber disruption have reshaped the risk environment facing Australian organisations. The problem is that ma...

Daily Bulletin - avatar Daily Bulletin

How to Rent a Car for Uber in Melbourne: What Every New Driver Needs to Know

Starting out as an Uber driver in Melbourne is not as complicated as it sounds but getting the vehicle right is where most new drivers get stuck. Uber has strict requirements around vehicle age, condi...

Daily Bulletin - avatar Daily Bulletin

When Should You Speak to a Lawyer About a Legal Issue?

Legal issues can begin with a simple question, then become harder to manage once formal steps are involved. Many people wait until a matter feels urgent before seeking guidance, even though earlier ...

Daily Bulletin - avatar Daily Bulletin

The strategic rise of Bali as Australia’s next essential healthcare support hub

As Australian healthcare providers grapple with unprecedented operational bottlenecks, a new nearshore model is quietly transforming patient care delivery. Forward-thinking organisations,  including...

Daily Bulletin - avatar Daily Bulletin

Cost Savings and Benefits of Using Used Pallets in Logistics

In today’s competitive logistics and supply chain industry, businesses are constantly looking for ways to reduce operational costs without compromising efficiency and reliability. One of the most prac...

Daily Bulletin - avatar Daily Bulletin

How Fulfilment Services in Australia Help Businesses Scale Efficiently

The growth of e-commerce and modern retail has transformed customer expectations. Consumers now expect fast shipping, accurate order processing, and seamless delivery experiences regardless of where...

Daily Bulletin - avatar Daily Bulletin

Practical Ways Australian Workplaces Can Reduce Operating Costs

Reducing business costs doesn’t always mean cutting staff, shrinking services or making the workplace feel bare-bones. In many cases, the smarter savings are hiding in everyday operations: the light...

Daily Bulletin - avatar Daily Bulletin

Executive Recruitment Solutions That Help Organisations Secure Exceptional Leaders

Leadership has a direct impact on organisational performance, employee engagement, strategic growth, and long-term success. Businesses operating in increasingly competitive environments require experi...

Daily Bulletin - avatar Daily Bulletin

Why A WooCommerce Website Designer Matters For Online Growth

Running an online store today requires more than simply listing products and waiting for customers to arrive. Businesses need a website that is fast, reliable, easy to navigate, and designed to suppor...

Daily Bulletin - avatar Daily Bulletin

The Daily Magazine

The Hidden Engineering Problem Inside Australia's Older Housing Stock

A significant share of Australian homes were built for a way of living that no longer exists. Houses...

DIY Rodent Control Vs Professional Help: When Is It Time To Call The Experts?

Rodents are one of the most frustrating pest problems for Australian property owners. Rats and mic...

Lighting Shop in Perth: How The Right Lighting Can Transform Your Home And Business

The right lighting can completely change the look, feel, and functionality of any space. Whether it ...

Traffic Light System Solutions For Safer And More Efficient Traffic Management

Modern cities and growing communities rely heavily on effective traffic management to ensure safety...

Gold Migration Lawyers in Liquidation: How the Closure Affects Your ART Appeal

If your appeal was with Gold Migration Lawyers, a recent change to how the Tribunal decides cases ...

The pressure cooker: life in urban Australia in 2026

Australian cities have always been demanding. Long commutes, rising housing costs, busy schedules a...

What Actually Makes a Good Criminal Lawyer in Melbourne

Most people only think about this question once. That is usually too late. Most people charged wi...

Why Working With A Chatswood Tutor Can Improve Academic Performance

Academic expectations continue increasing for students across primary school, high school, and senio...

Is It Worth Getting Solar Panels in Melbourne?

The real question is not whether solar works in Melbourne. It works. The question is what it is co...