I eventually became a professional immunologist having been a rheumatologist, macrophage and stromal cell biologist, histopathologist, embryologist and fluid physiologist along the way! That might make me a Jack of all trades but I think it taught me to have a group of people with lots of different knowledge bases - redox, antibody, macrophages, tissue mechanics, whatever. (Macrophage FcgammaRIIIa is induced by mechanical forces, which is why RA is an arthritis.) I suspect
@jnmaciuch may be picking up the same vibes from a similarly diverse track.
I can see what Tom and Max may be saying, and it is related to my own concerns, but I don't think it is as simple as that. There is no independent innate immune response. Even newborn infants use antibody to forearm their macrophages and NK cells. As Donne said 'No cell is an island, unto itself'.
Coming from a histological and tissue structure training I tend to see everything situated in this context and I don't think we have thought enough about where we think the bad cell events really are in ME/CFS. I am writing something with Jo Cambridge and Jackie Cliff and both of them came back with the first comment - 'where is it?' I think it very plausible that metabolic shifts inside macrophages are crucial to the bad signalling that makes people feel ill but this bad signalling might be hidden away in places we have never looked. I don't think we even need muscle cells to be involved at all, although they may be.
Where I suspect I agree with Tom and Max is in that it is hard to see innate immune cells getting stuck on the wrong fork of a bistable pathway without some outside help. And especially if this problem is supposed to spread to cells all over. I think the evolutionary argument must be that a pathway that is bistable and can flip into a hypo metabolic state entirely without external help will not survive. Non-linear bistable pathways are everywhere in haematology and immunology but they all have switch points that have external control I think.
The counter to this argument would be the pyrin gene allele for familial Mediterranean fever perhaps. It may have advantages as a heterozygous allele but produces bouts of fever when homozygous. It might be that people with early onset ME/CFS have something analogous - a gene variant that allows a purely innate immune cell bistable pathway to stuck flipped. It is just that the dynamics of ME/CFS seem very odd for that. It is not a paroxysmal disorder, nor a purely progressive one. It seems that other forces must be having a variable permissive effect on a flip over very long periods. That looks to me like an 'adaptive' immune response, with the caveat that you can get learnt clonal expansion of T cells that work more on innate signals than antigen recondition.
So I like the basic idea of invoking a positive loop and I like the idea of interferons because they modulate ell behaviour without necessarily being directly pre-inflammatory. I am drawn intuitively to gamma interferon but I have an open mind.
