a bonobo humanity?

1RH2 Recombinant Human Interferon Alpha 2b – evidemment

Jacinta: We’ve been mostly educating ourselves via the NinjaNerd YouTube series on immunology, which seems very comprehensive and yet comprehensible, for beginners, and then going to other websites for details. Now getting back to cluster differentiation (CD), a commonly used immunological term. Here’s a useful definition:

The cluster of differentiation (CD) is a protocol used for the identification and investigation of cell surface molecules present on leukocytes. CD molecules often act as receptors or ligands important to the function of immune cells.

Canto: That’s useful indeed. Each CD – 4 or 8 or 25 – represents a cluster of differentiation. Differentiated from other clusters. So back to T regulatory cells, which would be differentiated into those cells that predominantly have CD4 or CD8 molecules, as well as TCRs. All to help suppress auto-immune diseases in particular.

Jacinta: So we have these T regulatory cells, as well as helper and cytotoxic T cells, all created in the thymus essentially, and then they’re distributed to the lymphoid organs – the lymph node locations include ‘the groin, armpit, behind the ears, back of the head, sides of the neck and under the jaw and chin‘. There’s also the spleen  and its sinusoidal capillaries, where T cells form a surrounding layer known as the ‘periarteriolar lymphoid sheath’ (PALS), more commonly known as white pulp. A large number of T regulatory cells however remain in a thymus region known as the thymic (Hassal’s) corpuscles. They’re also distributed throughout the body – the tonsils, the respiratory tract and so on. All originating from the red bone marrow.

Canto: Well I’m still a little confused about the difference between the innate and adaptive immune systems and whether there really is any clear distinction between them (I suspect not). My own distinction so far is that the innate system is quick and not very specific and well-attuned, and the adaptive is – everything else.

Jacinta: Well, a bacterial antigen releases endotoxins which causes a massive release of inflammatory cytokines, got that?

Canto: Not particularly. Get this:

Endotoxins (lipopolysaccharides, LPS) are agents of pathogenicity of Gram-negative bacteria, implicated in the development of Gram-negative shock. Endotoxin reacts with lipopolysaccharide-sensitive cells producing endogenous mediators such as tumour necrosis factor alpha (TNFα).

That was my first stop in trying to find out what endotoxins are. Needless to say, it’s meaningless to me. Though I know that ‘endo’ means ‘from within’ as opposed to ‘exo’… I think.

Jacinta; If you look that up you’ll find it’s horribly complex. Okay the bacteria release toxins which release cytokines in reaction. There are many different kinds of cytokines, including histamines, prostaglandins and leukotrienes. Amongst other things these cytokines will impact smooth muscle cells causing vasodilation, increasing blood flow causing heat and redness. Cytokines will also contract endothelial cells, causing fluid leakage and permeability, affecting pain receptors. Bradykinins are also involved in vasodilation and increased blood flow. All this induces swelling and pain. Broadly, the four signs of inflammation are: swelling, pain, heat and redness. That answers a basic exam question. Joint immobility is a fifth sign in some extreme cases.

Canto: I’m looking at a different video, “introduction to the immune system”, because I think we need to stay on the ground floor for a while. I also think looking at language might help. For example, ‘cytokines’ feature heavily, and I was thinking that they were like some kinds of proteins or enzymes, something sub-cellular that could whizz about the body, but then I noticed that white blood cells were called leukocytes, and there were lymphocytes and phagocytes… cells! Like, complex organisms. And ‘kine’, apart from being about cattle, is where our word ‘kind’ came from, as in Kinds of Minds. So ‘cytokines’, methinks, are just the vast array of cells relating to the immune system.

Jacinta: Yes, this is good – a phagocyte is an ‘eating cell’.  A lymphocyte is a type of WBC that’s involved in the immune system. T cells are lymphocytes, as are B cells. So, yes, they’re complex, gene-containing thingumies, all of them, and lymphocytes are so called because the lymph system is full of them. But note that ‘cyte’ just means ‘cell’, not necessarily of the white or immune kind.

Canto: So starting again at the beginning, with the innate and adaptive systems. So the innate system is what often causes pains and fevers, that redness and itchiness and raised temperature mentioned before – inflammation. Because of the release of cytokines, as you’ve explained.

Jacinta: Ah but here’s where it becomes confusing and unhelpful. On a website designed, I think, for high school biology students I found this:

Cytokines…. are a broad category of small proteins that are important in cell signaling. They are released by cells and affect the behavior of other cells. Cytokines include interferons, interleukins, lymphokines, and tumor necrosis factor.

So it looks like you were right in the first place. It is confusing though. Interferons are proteins, as are interleukins, and ScienceDirect, which is generally reliable, says this:

Cytokines, chemokines, and lymphokines are multifunctional immunoregulatory proteins secreted by cells of the immune system.

So we’ve both been confused, and maybe looking at language origins might confuse us more. Best just to accept what the biochemists say.

Canto: So, are we starting again, again? Let’s look at some of the cytokine types. Interferons are as mentioned, signalling proteins. But what, exactly, is meant by signalling, and what exactly is a protein? A chain of amino acids, je crois. So, signalling – that’s about sending and receiving and responding to signs of change:

Individual cells often receive many signals simultaneously, and they then integrate the information they receive into a unified action plan. But cells aren’t just targets. They also send out messages to other cells both near and far.

So far, so obvious. These signals are essentially chemical. Even neurotransmission reduces down to the chemical level. But we’ll stick with pathogens and immunity. Receivers of signals are generally called receptors, and immune-system cells often, but not always, have receptors within or sticking out of the cell membrane.

Jacinta: Interferons are so-called because they interfere with viruses and such. We’ve actually been able to create them in the lab since the 80s for treating some cancers:

Interferons are the frontline defenders in your body. A variety of cells, including white blood cells, produce interferons in response to infection and other stimuli, like cancer cells. They initiate signaling cascades by stimulating the infected cells and those nearby to produce cytokines.

Canto: But are they the frontline defenders? And they’re cytokines themselves, as aforementioned. Cytokine seems a pretty broad term.

Jacinta: Our refined or not-so-refined new definition – cytokines are types of stuff created by a variety of cells as an immune response to pathogens. As to interferons, don’t worry about it.

Canto: Too late, I’m worried. Here’s another quote:

More than twenty distinct IFN [interferon] genes and proteins have been identified in animals, including humans. They are typically divided among three classes: Type I IFN, Type II IFN, and Type III IFN. IFNs belonging to all three classes are important for fighting viral infections and for the regulation of the immune system.

Should we just devote the rest of our lives to interferons and forget the rest?

Jacinta: Everything’s connected to everything else. And we shouldn’t despair – we’ve learned much about the lymphatic system, for example, that we didn’t know before.

Canto: We didn’t know anything before. But yes I’m encouraged. And getting back to language, lymph is apparently Latin for ‘clear water’, which is a good start for thinking about lymphatic fluid, even if it’s anything but clear.

Jacinta: Like sea or river water I suppose. The more you look… Blame all those pesky microscopes and such. Anyway, one video describes the lymphatic system as having three main functions: 1) returning fluid to the heart: 2) helping large molecules (hormones and lipids) enter the blood: 3) immune surveillance.

Canto: Okay let’s look at all that in a bit more detail next time.