Biological Imperfectness Sums Up the Several Theories of Aging

in #steemstem6 years ago (edited)

Introduction

[License: Public Domain]: Pixabay

Why do we age ? It may seem like an easy question but it is quite a tough one to answer. Aging is an unavoidable phenomenon of life. You grow and it is certain you will reach old age if you live long enough. This is a generally observable phenomenon. I personally would love the idea of living forever and wish science could grant us that luxury but well, it is just wishful thinking. Does this undermine what science can achieve ? No. The little problem is, science has not been able to make it clear how we age for a start so how can they successfully stop it ?. Several theories have been put forward. They all almost make total sense but science is not just about making sense you know. You have to present us with data and reproducible results. So it is one thing to tell us that a flying spaghetti monster exists, another thing to show us data suggesting that the flying spaghetti monster exists and a totally different thing to show us a flying spaghetti monster. Goodluck with that.

Business of the Day

[License: Public Domain]: Pixabay

Aging is a long known phenomenon. We almost consider it normal. A layman will most likely relate aging to the wear and tear phenomenon of machines. Machines on excessive use undergo wear and tear and 9 times outta 10, their parts have to be replaced. Well considering that we have the ability to replace dead cells with new ones, one should expect us to stay young or whatever. This could only be true if cells divided continuously. Well, Hayflick was able to illustrate that our cells do not divide continuously by having human fibroblast cells grown. The cells were shown to divide a finite number of times as they die at some point. This is known as replicative senescence. Ok, this is actually known as Hayflick’s theory of aging. It basically says in summary that cells cannot divide continuously as they age and die at some point. This, cumulatively, results in aging. It only makes sense for cells to die on continuous division as cell division results in the shortening of telomeres. Telomeres are protective caps that protect chromosomes making sure they are not susceptible to damage. So basically, as telomeres shorten, chromosomes are at risk and the genetic composition of a cell is more likely to be compromised.

But if you are Following, you would realize that genes seem to play a greater role in aging.

[License: Public Domain]: Pixabay

It is kind of easy to just sell off that conclusion but believe me, the exact cause of aging is still unknown. The role of genes in determining aging makes quite a lot of sense. With processes like apoptosis, where cells die in a programmed manner via genetic predispositions, it is okay to assume so. The question, however, is do cells die because genes mutate or because harmful genes that induce aging at some point in life exist or some genes are beneficial now but turn out to be harmful later. Quite a tough one to call but it is most likely due to all of these.
The idea of accumulated mutation was introduced by Peter Medawar in 1952 where he proposed that the accumulation of cellular damage and damage to genes (mutation) responsible for fixing these cellular damages was the ultimate cause of aging. In 1957, G. C. Williams introduced a term known as antaganostic pleiotropy. This embodies the idea that some genes are very beneficial to us at the early stages of life but later on, they begin to produce harmful effects and this is basically, why we age. It is basically programmed to occur at some point in life. Another interesting theory was introduced by Thomas Kirkwood in 1972. Widely known as the disposable soma theory. It suggests that our bodies keep the supply of useful resources to our somatic cells and reproduction processes in balance for some time. It channels the more resources to reproduction processes with time in attempt to perpetuate a species with the ultimate result being the death of somatic cells. This is what he proposed causes aging. However, it is clear that the afore-mentioned focuses on the probable genetic roots of aging.

Do our environments play any suggestive role in aging ?

[License: Public Domain]: Pixabay

When I say environment, I do not limit it to the external environment. The internal environment is also an aspect of the environment. Now that has been made clear let us proceed to where the environment probably comes into play. A popular bandwagon people like to hop on is the free radical theory of aging. Well, because it seems to make the most sense. No, it is actually because it helps companies sell their products. We have all seen products that contain antioxidants which mop up these free radicals and so, these products are automatically labeled anti-aging products. The free radical theory of aging suggests that the accumulation of free radicals, which in the case of humans are the reactive oxygen species (ROS), causes aging. ROS are very unstable molecules which are always in need of extra electrons so they are very quick to attack molecules like lipids, proteins and what have you to get these electrons. The fact that they attack lipids implies that biological membranes which are mostly made of lipids and to an extent, proteins are in trouble. Membranes can easily be compromised and cells lose their biological integrity and die. So ultimately we age. Viola, aging has been understood. Unfortunately, anaerobic bacteria will only make this joy short lived. This is because reactive oxygen species are only produced in organisms that make use of oxygen. In organisms that do not make use of oxygen (anaerobic organisms), they would have no place. So are we saying that anaerobic organisms do not age. Actually, they age and die. So that immediately tells you something else has to be responsible for aging. So your anti-aging products are just to make you feel better about your insecure self. They do not do jack lol.

Would it not make sense for us to consider biological imperfectness as the most obvious cause of aging

[License: Public Domain]: Pixabay

This paper interestingly justifies why biological imperfectness should be seen as the probable cause of aging. It basically says that aging is not as a result of just one of the theories proposed above but as a consequence of these theories acting in conjunction to cause aging. These theories only exist because we are biologically imperfect. The biological system gets it wrong when it comes to doing its checks and balances and this is why we have cases like mutation and cancer. It is okay to know that the rate of cellular damage will always outweigh the rate of cellular repair at some point in life and that is because biological imperfectness is our intrinsic nature. So basically while trying to look at aging, take all the theories I have highlighted here and even more theories as different systems acting towards a common goal - aging. A holistic approach is the way to decipher aging but due to its multiple probable causes, figuring it out for sure might be far from us for a long time.

References

(1) https://www.liebertpub.com/doi/abs/10.1089/ars.2013.5228
(2) https://www.sciencedirect.com/science/article/pii/S0369811414000315
(3) http://www.clinsci.org/content/130/5/317
(4) https://www.hindawi.com/journals/bmri/2014/761264/abs/
(5) https://www.sciencedirect.com/science/article/pii/S1568163715000033
(6) https://www.hindawi.com/journals/omcl/2016/3565127/abs/
(7) http://dx.doi.org/10.1016/j.disamonth.2015.09.005

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Hey @kingabesh, thanks for such a great article, had fun reading it!

antaganostic pleiotropy

I think this is a typo, and that antagonistic pleiotropy is what you aimed for :)

However, I would have few things to add/discuss about this topic.

This is because reactive oxygen species are only produced in organisms that make use of oxygen. In organisms that do not make use of oxygen (anaerobic organisms), they would have no place. So are we saying that anaerobic organisms do not age.

ROS are not only free radical species that exist, for example sulphur radicals are of the most abundant free radical species, and extremely damaging for cells, since they exhibit similar redox potential as ROS. Just because anaerobic bacteria don't use oxigen to survive, that doesn't mean that they're resistant to free radicals damage.

Personally I really don't appreciate the article you cited, because it contains some contradictory/incorrect statements, such as that aging still occurs under anaerobic conditions, where there is little ROS represents evidence against role of ROS in the aging process. Moreover:

Cellular damage generated as a result of imperfectness would certainly include oxidative damage. However, the latter, like any other damage form, would only represent a subset of total damage, which, regardless of its contribution to the regulation of lifespan, would have nothing to do with the cause of aging (9, 10).

Even if I would understand this particular sentence from the review paper, it would still mean little to me since the author cited only himself (references 9 and 10) :)

I would agree with you that aging is still not completely understood, however, there are factors acting combined known to have lesser and/or bigger impact on aging, such as oxidative stress, glycation, telomere shortening, and chronological age — along with various genes.

At the end, I would like to share a link to an interesting article which shows that premature aging in genetically engineered mice can be reversed by reactivating their telomerases. Although we cannot conclude from these results that activating telomerase in humans would slow down the aging process, this research certainly represents one step further towards our understanding of particular biological process.

After all, it's science we're talking here, and unfortunately we don't have a luxury of certainty as non-scientific theories do ;)

Appreciate this contribution from an expert in this field :) I’m aware of other free radical species like the RNS and I do not know if I am totally correct but the ROS should be more implicated in inducing oxidative stress and maybe that’s where the authors are coming from but thinking about the fact that they tried to discredit a probable role of free radicals in causing aging in anaerobic bacteria, it raises eyebrows as we have other free radicals that are not products of oxygen. Hopefully, we fully understand aging someday :). Interesting paper you cited btw.

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Aging is such a tough nut to crack, a lot of theories has been proposed and it just seems like there are more questions than answers to the reason we age and how to stop it.

It is, therefore, safe to conclude that multiple factors play different roles in ageing. Though right now the thing that we are concern about is the ever-increasing elderly people compared to the younger population.

Older adults are working longer. By 2014, 23 percent of men and about 15 percent of women ages 65 and older were in the labour force, and these levels are projected to rise further by 2022, to 27 percent for men and 20 percent for women.

Source

It is important to ensure that we take every step there is to optimise the health of the general population so that chronic diseases related to the ageing process can be reduced:

Adult onset diabetes
Arthritis
Kidney and bladder problems
Dementia
Parkinson’s disease
Glaucoma
Lung disease
Cataracts
Osteoporosis
Enlarged prostate
Alzheimer’s disease
Macular degeneration
Depression
Cardiovascular disease

Source

By the way, you should read/make a post about progeria. It is an interesting disorder that causes people to age prematurely.

I will consider writing on that. Thanks for your contribution :)

Hello @kingabesh. It's a very nice article. But, permit me to ask a question cos it's not cleared to me. You wrote and I quote.

These theories only exist because we are biologically imperfect.

What exactly do you mean by humans being biologically imperfect?

Thanks.

Our biological processes are not balanced per se. rate of cellular damages mostly always exceeds rate of cellular repairs and that should not be the case in a perfect situation. Perfection does not exist not even in biological systems

Okay, now I get it. Thanks for the explanation.

I personally would love the idea of living forever and wish science could grant us that luxury but well, it is just wishful thinking

The concept of immortality can be achieved if science will know the hormones that causes growth, then we can use a catalyst to slow down its advancement



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