Ok, I understand some of this. I know that often the structure of proteins (especially e.g. with ATP Synthase) helps drive and time limits energy production or energy signalling. Just like how the plugging/unplugging of sodium channels naturally creates equal windows for sodium to enter Neurons during action potentials, the natural duration of ATP synthase and other processes establishes a sort of time unit, wherever the ATP is.

Please can you expand a little more. I am a novice so I'm sure there must be something here I have missed, and would love to know what that is:

What I am a little confused about is that the consumption of energy is not done at the same time as consumption, unless I am wrong?

For example when muscles are used or repair during hysteresis, the mitochondria produced the ATP used in that reaction long before the event.

I suppose you can argue any energy consumption via chronic stress effects that. However, because it is local, distributed and there are a few forms of stored energy in essence and uses of it (e.g. mitosis/DNA nucleotide production), it's not like having one singular energy total that goes down, is it?

It's feasible that each area of the body can upscale production and produce their different kinds of energy/energy store more efficiently over time, since most of the time the body is not producing ATP at peak rate. Is the argument that doing that would wear out parts of the cells we have faster or something, due to the chronic stress, compared to what they typically see?

I struggle to buy this argument because we know that heavily overweight people consume much more calories (and thus more ATP Synthase etc) for their number of cells but they don't necessarily die much younger until you reach severe levels of being obese.