“Old” Food Reduces Lifespan(harvardmagazine.com)
harvardmagazine.com
“Old” Food Reduces Lifespan
http://harvardmagazine.com/2017/02/old-food-reduces-lifespan
20 comments
If I'm reading this correctly, the only "food" involved is cannibalism, although they didn't end up doing so with the mice due to supply issues. It doesn't explain why eating another organism's "accumulated damage" reduces the eater's own lifespan but says they expected it to have even more effect than it did.
Clearly, eating works differently than I thought it did, because I'm at a complete loss.
Clearly, eating works differently than I thought it did, because I'm at a complete loss.
Not really a specialist or anything, but I surmised that aging creates what you could call "bad chemicals" in your body.
> unavoidable byproducts of enzyme function, for example, or of protein-to-protein interactions, errors in DNA transcription or translation.
One would surmise that aging adds "bad chemicals" to your body at some set rate. If you ALSO eat old things, that are already full of these "bad chemicals", your body will acquire these bad chemicals faster (because of the extra source).
In short, this research shows that there is some byproduct of the aging process that can be transferred from one organism to another and cause aging in the second organism.
> unavoidable byproducts of enzyme function, for example, or of protein-to-protein interactions, errors in DNA transcription or translation.
One would surmise that aging adds "bad chemicals" to your body at some set rate. If you ALSO eat old things, that are already full of these "bad chemicals", your body will acquire these bad chemicals faster (because of the extra source).
In short, this research shows that there is some byproduct of the aging process that can be transferred from one organism to another and cause aging in the second organism.
I wonder what the role of prions would be in that? Assuming of course that this isn't just another bullshit, N=20 study.
Ageing and death are the accumulation of errors; is my take from this study.
How is that your take? It seems that would completely contradict it. If it's just accumulation of errors how would that be impacted at all by what you eat? Especially the age of what you eat!
Think of errors as a toxin or heavy metal. Not all aging will be like that, time is merely correlated.
the mice ate deer meat, I wouldn't call that "cannibalism". the fruit flies and the yeast, though, I would.
I'm gonna wait for the replication before I believe it.
Older organisms have added time to ingest toxins like heavy metals (especially prevalent in carnivorous fish like tuna). I suspect this plays some role here.
Of the three experimental groups in the article, it sounds like two, the yeast and fruit flies, were all lab grown grown. Where would the toxins have come from.
In the third, the Deer meat fed to mice was 25 years old and clearly had fewer controls, despite this room for toxins, the mice had the smallest effect of any of three groups.
In the third, the Deer meat fed to mice was 25 years old and clearly had fewer controls, despite this room for toxins, the mice had the smallest effect of any of three groups.
Off the top of my head, here are some guesses for possible toxins that could accumulate:
1) Advanced Glycation End-productions (AGE) from normal metabolism
2) Trace levels of heavy metals, dioxins, etc. from the growth media
3) Reactive oxygen species (ROS) generation increasing with age-related damage
4) BPA, phthalates, or other potentially nasty things leaching from the plastic growth containers
5) Lipofuscin
6) Misc age-related inflammatory cytokines
7) ????
1) Advanced Glycation End-productions (AGE) from normal metabolism
2) Trace levels of heavy metals, dioxins, etc. from the growth media
3) Reactive oxygen species (ROS) generation increasing with age-related damage
4) BPA, phthalates, or other potentially nasty things leaching from the plastic growth containers
5) Lipofuscin
6) Misc age-related inflammatory cytokines
7) ????
Maybe they should have had another set that had their usual diet for comparison just to ensure that they are not making their observations on cannibalism. As one can take the study to mean if cannibals chose young for their dietory needs they would survive 10% longer except in the case of mice however.
>The effect of consuming an old versus a young diet, he says, was “statistically significant, but it wasn’t huge. Honestly, I thought it would have a much larger effect on lifespan, but it was on the order of about 10 percent.”
There is an effect that works in the opposite direction that might explain why the effect was smaller than expected:
Younger organisms (presumably) have a higher percentage of inflammatory amino acids than older organisms and restriction of some of these is known to extend life. Methionine restriction has been established I think.
In the other direction, Ray Peat claims that a higher percentage of older organisms is collagen. The consumption of collagen (bone broth for example) is possibly life extending.
There is an effect that works in the opposite direction that might explain why the effect was smaller than expected:
Younger organisms (presumably) have a higher percentage of inflammatory amino acids than older organisms and restriction of some of these is known to extend life. Methionine restriction has been established I think.
In the other direction, Ray Peat claims that a higher percentage of older organisms is collagen. The consumption of collagen (bone broth for example) is possibly life extending.
I wonder if the results extend to normal (non-cannibalistic) diets.
For example, does feeding a mouse young plant parts result in a longer lifespan than using seeds that have taken many months to ripen?
For example, does feeding a mouse young plant parts result in a longer lifespan than using seeds that have taken many months to ripen?
Maybe old food has more chance to accumulate crap in their system, thus eating it will be worse
Does this explain our natural predilection for lamb over mutton?
This indirectly confirms the benefits of a caloric restriction diet (since less fewer means less "old" food being consumed.)
Possibly, but they weren't really testing to learn about the effects of old vs new foods in general. It's more a test of whether "metabolic junk" is significant to aging, so they used food sources that would have more or less of those factors present. The relevant compounds are different and not precisely known for the different organisms, thus the cannibalistic diets.
That said, 10% for mice is well within the "try it again in a different lab, get a different result" margin of error for this sort of study.