New Research Suggests Cancer May Be an Intrinsic Property of Cells

cranky_chemist sends this report from NPR: "Cancer simply may be here to stay. Researchers at Kiel University, the Catholic University of Croatia and other institutions discovered that hydra — tiny, coral-like polyps that emerged hundreds of millions of years ago — form tumors similar to those found in humans. Which suggests that our cells' ability to develop cancer is "an intrinsic property" that has evolved at least since then — way, way, way before we rallied our forces to try to tackle it, said Thomas Bosch, an evolutionary biologist at Kiel University who led the study, published in Nature Communications in June (abstract) To get ahead of cancer, he said, "you have to interfere with fundamental pathways. It's a web of interactions," he said. "It's very difficult to do." That's why cancer "will probably never be completely eradicated."

"Not eradicated" isn't needed

[magarity]

I'll be people who get cancer will be perfectly happy to settle for "easily curable/reversible" if it can't be prevented in the first place. Don't let perfect be the enemy of good enough.

Re:"Not eradicated" isn't needed

[i+kan+reed]

How did a comment this off the mark get +5 insightful so fast?

It's not a matter of what you "call" beating cancer. The problem is that important, beneficial parts of our biology depend on the parts that go all cancerous under certain circumstances.

It's part of the "there isn't one cancer" premise. (According to this)Our cells have the programming on how to cancerous built in. And lots and lots of very different biological switches can activate it. And those switches can't all be turned off because they do other important things too.

Re: "Not eradicated" isn't needed

[fuzzyfuzzyfungus]

Multicellular organisms do have a variety of lethal failsafes that are supposed to stand in the way of cancer. Unfortunately some fraction of potentially cancerous cells are sufficiently defective that apoptosis is interrupted and they can proliferate.

Re: "Not eradicated" isn't needed

[Beck_Neard]

Right, but that's miles away from saying "there is never going to be an effective treatment." If anything, having a set of well-defined and known pathways should make it EASIER to fight cancer than if cancer were just the result of random mutations that could arise anywhere on the genome at any time.

  The article never says that cancer is a 'side effect' of being alive. Instead it says that there are certain deep evolutionary pathways that, when triggered at the inappropriate time, cause cancer. Thus we might never be able to 'cure' ourselves of it (at least the same way we can cure ourselves of infectious disease). But that doesn't mean cancer would be impossible to treat or. It means the opposite: if all cancer cells go through similar mechanisms, fighting cancer would simply be a matter of weeding out those cells that show the characteristic, shared, telltale cancer signs and killing them early on (Of course we don't have the technology yet to do this but research like this offers a pathway towards building such tech).

Re: "Not eradicated" isn't needed

[DoofusOfDeath]

Not sure what you mean by a "deep evolutionary pathway".

It seems to me that the pathways exist regardless of how we came to have our current physiology - evolved long ago or just recently. It's not obvious to me that there's a correlation between (a) how long living creatures have had such pathways and (b) how easy/hard it is to treat cancer in someone who has it.

"Never"

[Greyfox]

Like my 70's era assembly language book thought that 32 bit processors would "never' be widespread due to how expensive it would have to be to produce them?

Re:"Never"

[i+kan+reed]

And who exactly is using 32 bit processors these days, hmmm?

Headlines

[schneidafunk]

This seems like an overly dramatized article based on one sentence. Obviously there's been progress in cancer treatments and some cures for specific cancers.

FTA: One strategy might be to against these cells. Yervoy, a drug that does just that, eliminated melanoma in — and counting. An infusion of Yervoy and a similar drug, nivolumab, has kept some lung cancer patients disease-free for about six years so far. "Their cancer hasn't come back yet. It might never come back," Ben Creelan, an oncologist at Moffitt Cancer Center. "I think it's the most exciting thing in decades."

"new" research

[gcnaddict]

New Research Suggests Cancer May Be an Intrinsic Property of Cells

No shit, really? Because all the knowledge of cancer-blocking genes (like p53) which trigger apoptosis (programmed cell death) wasn't a giveaway that runaway growth might actually be an intrinsic property of life? The whole point of these genes is to keep cells in a multicelled organism from defeating the ability for a given multicelled organism to live.

but I didn't read the study, so maybe this is saying something that isn't already obvious.

Re:"new" research

[Alopex]

I agree that the title is misleading. The reason that this paper is in one of the highest-impact scientific journals is not because it suddenly dawned on scientists that cancer is pervasive and just a fact of how cells work, but because they found tumors in early (in evolutionary terms) species that had never been discovered before.

Scientists have known since the dawn of knowing what cancer was that this was an intrinsic property of life. When the error-checking machinery is error-prone, things can get out of control.

Makes sense I guess.

[Dorianny]

The mechanisms of evolution, like natural selection and genetic drift, work with the random variation generated by mutation. It would make sense that cells have have an intrinsic ability to mutate would have a higher chance of developing a beneficial mutation therefore would have a evolutionary advantage.

Re:Makes sense I guess.

[Tablizer]

I can see such in reproduction-related cells, but not regular body cells because those are not passed on.

More likely cancer is simply the result of the trade-offs between efficiency versus duration. In a competitive world efficiency guarantees genetic success more than life duration. After all, the alpha male is in almost a winner-take-all role. To be the alpha male you have to have a high metabolism and an efficient metabolism (get big without having to find extra food).

This means that entropy (errors in cell division) builds up faster. There are generally two solutions to entropy: slower metabolism or error correcting mechanisms. Being slower means you'll never be able to be the alpha male, and error-correcting means you are less efficient during your prime because such mechanisms consume resources. (Some bacteria have such.)

Note how female mammals typically have lower metabolism and live longer. This is because they are not in the winner-take-all position of males.

Re:So what they need, then...

[DigiShaman]

And how do you transfer your mind, which is made up of an individual pattern of pathways of neurons and synapse unique to the individual? You can't transfer the brain because it too ages. The DNA overtime suffers replication transcription errors. You might the able to extend the telomeres or re-program the DNA using the CRISPR method...maybe.

I think this is it. The only way to "extend your life" is via procreation. Whatever knowledge you transfer to your child[ren] will be your long lasting legacy left behind.

Re:Hey wait...

[WillAffleckUW]

...does this mean I can smoke?

No.

You have to have sex first.

Smoking is for after.

Cool research, strange conclusion

[clawsoon]

It's too bad that this very interesting research - cancer in hydra! - is being overshadowed by sweeping statements about cancer. There are a number of species which experience little to no cancer, from naked mole rats to some whale species. There are a number of different ways that different species reduce or prevent cancer, from additional cell-death signalling via hyaluronan in naked mole rats to additional cell-death signalling via p53 pathways in blind mole rats to replicative senescence in many large mammals, to who-knows-what in eastern grey squirrels and elephants and whales.

The cancer-fighting idea in each case is something that should be near and dear to systems administrators: Redundancy. The more cell-death pathways there are, the harder it is for a series of mutations to result in immortal cancer cells. Redundant Arrays of Immortality Suppression, if you will.

This doesn't mean that we'll ever get rid of cancer in humans, mind you, because evolving a new cancer-prevention signalling pathway takes a couple of million years. But the fact that hydra get cancer doesn't have anything to do with whether we'll ever get rid of cancer in humans, either.

DNA replication has always been error prone, so?

[volvox_voxel]

Just because cancer has been around for a very long time, should not make us defeatists.. I spent 5 years working on DNA sequencers and cancer cell sorting robots, and still consider biology to be hundreds of years behind other branches of science because we have not, until very recently had the tools to study the differences between cancer and normal cells at the DNA level. The Illumina machine can images two flow cells at once -- one for cancer, and one for normal cells. We can now study what happened to make the DNA replication fail and mutate, etc. Apparently it's now possible to do this for $1000.. The human genome project originally cost about 2 billion dollars.. The reduction in infrastructure and cost has been extraordinary.

We can now better identify specific cancers to take out some of the guesswork. In the journal Nature a few years ago , doctors used a DNA sequencer to identify a misdiagnosed cancer (muscle cancer in his lung, producing large tumors) who had only weeks to live, and brought him back from the brink with the right treatment. We've spend the last 40 years developing specific cures, and it was only just guess work to decide what actual cancer a patient had.. This was circa 2007-8..

One thing that really encouraged me a few years ago was a documentary from PBS called Cancer Warrior, that outlined the work of Judah Folkman and is work on angiogenic inhibitors.. Apparently tumors can trigger a persons body to grow veins to connect it to a blood supply , and that you can pick up unique chemical signatures of individual tumors in a patients urine..Strangely enough, large tumors send out chemicals that inhibit the growth of other tumors, and is why we often see many more tumors after removing one large tumor. We now have drugs that form angiogenic inhibitors ... Perhaps in the future we will understand how to create custom tumor growth inhibitor agents that have been tailored for a specific patient by analyzing the signatures in their urine.... An interesting application of synthesis and analytical chemistry.. I wonder what is the current state of research..

Re:DNA replication has always been error prone, so

Excellent documentary about Judah Folkman and angiogenesis here

It's combinatorics

[presidenteloco]

Human (and similar) bodies work by the continuing controlled boil of of n-billion chain-reactions among n-billion complex molecules. These reactions, though unbelievably complex, have been channelled into very narrow auto-catalytic reaction pathways by evolution. As well as the reactions that do happen in successful organism continuance, there are a vast combinatoric possible range of alternate, and ultimately counter-productive reaction chains that could take place with the same molecule combinations that are present. Luckily, almost all of these destructive alternative reaction chains are energetically infeasible, again, because evolution produces more and more precisely regulated catalyzed reaction chains, equivalent to fine-grained control of living structure formation and process, including metabolism, cell reproduction, and programmed cell death.

However, the combinatoric possibilities for alternate reactions, and alternate metastable structure and process formations, are huge, due to both the number of redundant instances of each type of structure and each type of (chemical) process, and the complexity of the number of different interacting structures and (chemical) processes.

Again luckily, most alternative structure and process that arises is self-lethal. Self-continuing reaction chains (in any given chemical/structural/thermodynamic context) are exceedingly rare, relative to the number of alternatives that might start out.

More fortunately, the viable chains of structure and process have become so sophisticated due to evolution that they actively work to destroy many altered forms. (The immune system.)

However, again, given the vast combinatoric opportunities for even just slightly alternative structure and process to begin as a slight error in a routine living structure and process, not every alternative is non-viable, and not every alternative can be overcome by the immune system.

Some alternative auto-catalyzing structures/processes, starting as minor variants of normal structures/processes, can be viable in their own right, and form a simpler-than-their-host-organism replicating system within the host organism's body, and using its material and energy, and, it must be said, using many of the host body's still perfectly functional structures/structure types/ and processes (e.g. blood vessel recruitment by tumours.)

In summary, viable life as any single type of organism is a matter of a self-reinforcing chain/cycle of viable structure formation and chemical process/reaction continuation within and with that structure. There are virtually unlimited kinds of minor variations in structure or process that could accidentally occur in such a complex physical/chemical/thermodynamic context.Most of those alternatives are self-lethal (not programmed chemically and structurally to continue to reproduce and grow their alternative form). Many other alternatives that might be successful at alternate-form growth and reproduction are killed off by a healthy immune system.
But some forms get through.
The biggest predictor of cancer formation is lifespan. As an organism ages, a) There have simply been more opportunities for structure/process accidental variation experiment within the body, and b) Probably the regulation of process by the body itself becomes weaker as subsystems reduce from their early-life capability levels, due no doubt to a whole range of entropic breakdown of the uniformity of structure and process.

Organism bodies (and their vast self-supporting network of constraining structures and autocatalytic reactions) have a design-life (by evolution, not a designer), and that design life is "enough to reproduce, and care for the offspring if applicable to the species".

A tough story to hear, but that's the story of life and cancer. It is not a hopeless story. Both immune function improvement and novel artificial interventions stand good chances of beating back these alternative lifeforms within us in particular cases. In general though, it is just part of our life process.

 

Re:a CATHOLIC university is talking about evolutio

[Allasard]

You don't know much about Catholics.

Pope Benedict XVI endorsed this statement (before becoming pope):

"According to the widely accepted scientific account, the universe erupted 15 billion years ago in an explosion called the 'Big Bang' and has been expanding and cooling ever since. Later there gradually emerged the conditions necessary for the formation of atoms, still later the condensation of galaxies and stars, and about 10 billion years later the formation of planets. In our own solar system and on earth (formed about 4.5 billion years ago), the conditions have been favorable to the emergence of life. While there is little consensus among scientists about how the origin of this first microscopic life is to be explained, there is general agreement among them that the first organism dwelt on this planet about 3.5–4 billion years ago. Since it has been demonstrated that all living organisms on earth are genetically related, it is virtually certain that all living organisms have descended from this first organism. Converging evidence from many studies in the physical and biological sciences furnishes mounting support for some theory of evolution to account for the development and diversification of life on earth, while controversy continues over the pace and mechanisms of evolution." - Communion and Stewardship: Human Persons Created in the Image of God, plenary sessions held in Rome 2000–2002, published July 2004,

Evolution, and most other science is fine with Catholics.

Re: So what they need, then...

[DigiShaman]

This is why I have a problem with teleportation. It means creating an exact copy while destroying the original in the process. So, is it really "you" at the other end?

Re:No duh.

[gurps_npc]

You could have tried to disagree with me without insulting me. But that would have you to try and show me how I was wrong. Lets try this again, using wikipedia.

Evolution (From wikipedia): Evolution is the change in the inherited characteristics of biological populations over successive generations.

Cancer (also from evolution): a group of diseases involving abnormal cell growth with the potential to invade or spread to other parts of the body.

Now use your brain. Abnormal = change from inherited characteristics, cell growth = biological population, and the only way cells invade and spread is via successive generations.

That's just from wikipedia. Here is a more direct explanation.

Cancer is nothing more than than a mutation in normal cells, that allow them to reproduce far more and faster than the other cells around them, to the detriment of the original host.

Evolution is the process where mutations allow normal living things to reproduce far more and faster than their competitors (i.e. the other cells around them.).

Cancer is just evolution occurring to our individual cells, to the detriment of us. If you can't see that, you need to retake biology classes.

Very well put; see also cancer-preventing foods

[Paul+Fernhout]

Neat post. Conceptually, single-celled organisms can't get "cancer" because, in a way, they are cancer. However, they no doubt can suffer mutations or other genetic changes (like from viruses) that make them survive and reproduce more or less well, all things considered for their current environment. Cancer has to do with a cell deciding not to play nicely with the rest in a body, and to strike out on its own, so to speak. Cancer in general is a bit like a crazy individual or small group in a society trying to take over the whole thing (current US plutocrats?); generally it works out badly for everyone as core services start to fail and the cancer cells are no longer supported by the rest of the body. Cancer is like spammers, who for a quick buck in the short term, are busy destroying email and the rest of the internet that could otherwise bring everyone abundance. Cancer is about "selfishness" where the individual ignores its part to play in the whole and where the whole supports the individual. But since evolution involves variation and selection, the underlying mechanism of cancer via mutation or viral infection also in a sense underlies evolution. So yes, it will always be with us.

I've heard most people in the USA age 40+ years old have cancerous cells in small amounts, but the immune system is continually killing them off to keep them from spreading.

Good nutrition helps with that, like Dr. Joel Fuhrman talks about
https://www.drfuhrman.com/libr...
"Though most people would prefer to take a pill and continue their eating habits, this will not provide the desired protection. Unrefined plant foods, with their plentiful anti-cancer compounds, must be eaten in abundance to flood the body's tissues with protective substances. Vegetables and fruits protect against all types of cancers if consumed in large enough quantities. Hundreds of scientific studies document this. The most prevalent cancers in our societies are plant-food-deficiency diseases. The benefits of lifestyle changes are proportional to the changes made. As we add more vegetable servings, we increase our phytochemical intake and leave less room in our diets for harmful foods, enhancing cancer protection even further. Let's review some of these research findings and then review what a powerful, anti-cancer diet will look like. ... A typical anti-cancer diet should contain at least 4 fresh fruits daily, at least one large raw green salad, as well as a two other cooked (steamed) vegetables, such as broccoli, carrots and peas, squash or other colorful vegetables. A huge pot of soup laden with vegetables, herbs and beans can be made once a week and conveniently taken for lunch. Raw nuts and seeds are another important, but often overlooked, group of foods with documented health benefits contributing to longevity. ..."

One thing Fuhrman misses in his discussion is that these compounds are not "Anti-cancer" as much as the human body has adapted via evolution to use these compounds to prevent or fight cancer.

He is right that cancer is best prevented rather than treated. As I've heard, it said, you can either get your chemotherapy every day from fruits and vegetables, or you can end up getting it all at once in the oncologist's office (not that most current chemotherapy is probably worth it anyway).

Fasting may also sometimes help prevent cancer as well as can a ketogenic (fat burning) diet that deprives cancer cells of sugar.
https://www.google.com/search?...
https://www.google.com/search?...

But your point stands that this is all combinatorial (statistical, entropical?) about when something gets out of hand. Even when we have Elysium-like medical beds that get rid of cancer instantly, some computer virus or malicious person may make them work incorrectly. Or, as in the movie, selfish elites can keep the healing beds to themselves.

Cancer.

[ledow]

My girlfriend is a PhD geneticist who specialises in cancer studies (leukaemia etc.) and is currently working in hospitals doing genetic test to confirm cancerous tumours and other genetic diseases.

When we talk about it, I can't talk on her level, but the way she explains it, cancer is an inherent factor in living things. There's a reason for that. It's a natural replication mechanism that is based on parts of a cells DNA. DNA is basically damaged ALL DAY LONG in your body. UV does it. All sorts of things do it. And DNA has repair mechanisms not dissimilar to a error-correcting code that runs your RAID array, or your PAR files.

So most of the time, when a cell is damaged, it "fixes itself". If it doesn't fix itself, then there are mechanisms in the body itself to detect and cull damaged cells that get that far (the immune system, basically). If those mechanisms fail against the damage, or the damage is of certain undetectable types, then the cell will replicate. But, crucially, the damage to the cell will mean it will never stop replicating. And all the replicated cells will share the same error. And basically then you end up growing a tumour.

As such "cancer" is inherent in all living things with DNA. The question really is whether you live long enough to be statistically affected by the amount of damage it takes to get a cell that can't be fixed or eradicated by the body, or not. Babies can get cancer. It's pretty much down to chance.

So, I'm not at all sure what we're being told here. It seems like someone is trying to claim that somehow cancer is some kind of "disease" that they've found in an older species so it must have been around for longer. Actually, from what I gather, it's ALWAYS been around. Pretty much since DNA existed, if not before. Because it's a misfiring cell that never gets the "stop" signal when it starts replicating (which happens millions of times a day throughout your body).

It's a "flaw", if you like, in the DNA error correction mechanisms. It's not a disease as such. It's not something you "catch". It's not even something that "evolves". It's a mistake. An error. A bad sector or flipped bit on your cell's hard drive that corrupts the rest of the files on there and, when you then blindly execute those instructions, can lead to writing over your whole hard disk.