November 22, 2024

Researchers Discover How Too Much Oxygen Can Cause Lasting Health Problems in Humans

An Understudied Question
At high levels, oxygen is poisonous to every form of life, from bacteria and plants to animals and people. Of course, insufficient oxygen is also deadly; theres an intermediate, “Goldilocks” amount under which most life on Earth prospers– not too much and not too little.
While clinicians have actually long studied the details of how oxygen shortage effects cells and tissues (for instance, in cardiac arrest and strokes), the results of excess oxygen have been reasonably understudied.
” For many years, the medical mentor was that, to a particular degree, more oxygen was better, or a minimum of benign, when dealing with clients with conditions such as cardiovascular disease,” states Alan Baik, MD, a postdoctoral scholar in Jains laboratory and a cardiologist at UC San Francisco (UCSF). “But there has actually now been a growing variety of medical studies showing that excess oxygen actually causes worse results. This determined us to better understand why excess oxygen can be hazardous.”
Studies have actually recently exposed, for example, that breathing excessive supplemental oxygen may be harmful to cardiac arrest clients and early infants. In obstructive sleep apnea, the unexpected bursts of oxygen that follow pauses in breathing have actually been revealed to be a crucial component of how the disorder increases patients threats of chronic health issues.
Still, the systems of these results remained dirty. Numerous researchers assumed that reactive oxygen types– highly reactive and unstable oxygen derivatives that can harm our genome and many molecules in our cells– likely played a function in hyperoxia, however there was little proof to demonstrate how excess oxygen affects particular enzymes and paths.
How CRISPR Found the Answer
Jains group– including Baik, postdoctoral fellow Galih Haribowo, Ph.D., and graduate trainee Kirsten Xuewen Chen, who are co-first authors of the new paper– relied on the genome editing technology CRISPR to check the roles of a range of genes in hyperoxia.
Using CRISPR, the researchers got rid of, one at a time, more than 20,000 different genes from human cells grown in the lab and after that compared the development of each group of cells at 21 percent oxygen and 50 percent oxygen.
” This type of impartial screen let us penetrate the contributions of countless different paths in hyperoxia instead of just focusing on those we already believed may be included,” states Jain, who is also an assistant professor of biochemistry at UCSF. “It led us towards molecules that have actually never ever been uttered prior to in the very same sentence as oxygen toxicity.”
Four molecular pathways stood out in the screen as being associated with the impacts of hyperoxia. They connected to varied cellular functions including the repair work of damaged DNA, the production of brand-new DNA building blocks, and the generation of cellular energy.
Protein Clusters in Common
Initially, the group could not identify what the four pathways had in typical and why they were all affected by high oxygen levels. It took some molecular sleuthing to find that each path had an important protein which contained iron atoms connected to sulfur atoms– so-called “iron-sulfur clusters”– in its molecular structure.
The researchers went on to show that, in as low as 30 percent oxygen, the iron-sulfur clusters in the 4 proteins become oxidized– they chemically respond with oxygen atoms– and that modification triggers the proteins to deteriorate. As a result, cells stop functioning properly and consume even less oxygen, causing an additional boost in oxygen levels in the surrounding tissues.
” One crucial takeaway is that hyperoxia is not affecting cells and tissues entirely through reactive oxygen species, as numerous had actually assumed,” says Jain. “That suggests making use of antioxidants– which can combat reactive oxygen types to some degree– is not likely to be enough to avoid oxygen toxicity.”
Reference: “Oxygen toxicity causes cyclic damage by destabilizing specific Fe-S cluster-containing protein complexes” by Alan H. Baik, Augustinus G. Haribowo, Xuewen Chen, Bruno B. Queliconi, Alec M. Barrios, Ankur Garg, Mazharul Maishan, Alexandre R. Campos, Michael A. Matthay and Isha H. Jain, 8 March 2023, Molecular Cell.DOI: 10.1016/ j.molcel.2023.02.013.
The study was funded by the National Heart, Lung and Blood Institute, CZ Biohub, the Sarnoff Cardiovascular Research Foundation, and UC San Francisco.

Alan Baik belongs to the group in Isha Jains laboratory at Gladstone Institutes that uncovered why high levels of oxygen can trigger enduring issues in human beings. Credit: Michael Short/Gladstone Institutes
Scientists have actually discovered why raised levels of oxygen can result in withstanding health issues in human beings.
When it pertains to oxygen, you can have too much of a great thing. Breathing air with oxygen levels higher than the basic 21 percent discovered in Earths atmosphere can result in organ damage, seizures, and even death in both animals and human beings. This is referred to as oxygen toxicity, or hyperoxia, and takes place when there is an excess of oxygen beyond the bodys needs. While researchers have understood this phenomenon, they have primarily relied on speculation to comprehend the underlying systems of oxygen toxicity previously.
A current research study by Gladstone Institutes has exposed how excessive oxygen levels change certain iron and sulfur-containing proteins within our cells, comparable to the process of iron rusting. As a result, these “rusty” proteins set off a chain reaction that causes damage to cells and tissues. The research, which has actually been published in the journal Molecular Cell, clarified the implications for conditions like heart attacks and sleep apnea.
” This research study allowed us to put together a very specific timeline for what occurs in hyperoxia,” states Gladstone Assistant Investigator Isha Jain, PhD, senior author of the brand-new study. “The outcomes werent at all what we were anticipating, however its really interesting and amazing to now understand how this series of events unfolds.”

Breathing air with oxygen levels higher than the standard 21 percent found in Earths environment can lead to organ damage, seizures, and even death in both people and animals. This is understood as oxygen toxicity, or hyperoxia, and occurs when there is an excess of oxygen beyond the bodys needs. A recent study by Gladstone Institutes has actually exposed how excessive oxygen levels change particular iron and sulfur-containing proteins within our cells, comparable to the process of iron rusting.” For numerous years, the medical teaching was that, to a particular degree, more oxygen was much better, or at least benign, when treating patients with conditions such as heart attacks,” says Alan Baik, MD, a postdoctoral scholar in Jains laboratory and a cardiologist at UC San Francisco (UCSF). “But there has now been a growing number of scientific studies showing that excess oxygen really leads to worse results.