hi! i sent u tht ask abt my mom having cancer, n i have a (rly dumb) question. i know shes on epoch-r, and i read about that, but im just. confused about how chemo in general works? ive tried looking it up but everywhere i looked says "chemo attacks cancer cells" and doesn't explain further.
hi hi hi!!!Â
thatâs totally not a dumb question. iâve always been confused too, especially since there are so many cancer treatment terms and honestly it gets really confusing sometimes (like holy cow are cancer drug names awful to pronounce?)
historically, the term âchemotherapyâ used to mean just any chemical compound (aka a drug) that can be used to treat a disease, such as antibacterial chemotherapy. and then the nomenclature slowly became known as just any drug thatâs used to attack and kill cancer cells. this was way before anything like âtargeted therapyâ or âimmunotherapyâ was discovered, so you can look at chemotherapy being the grandfather or umbrella term for cancer-killing agents.Â
chemotherapy is also used to describe a treatment thatâs given systemicallyâas in it goes everywhere in the body, usually through intravenous (IV) injections. therefore itâs pretty darn useful to, for example, treat cancers that have metastasized to different organs. (thatâs not the exclusive use of chemo tho; patients with primary tumors that havenât metastasized can still use chemo). this is in comparison to radiation therapy, which uses radiation to blast a very very specific area of the body where the tumor is.Â
the majority of the time, chemotherapy is a group of drugs that kill cancer cells because they attack their more-or-less unique characteristic of being crazy fast cell dividers. these drugs will often go after the mitosis machinery, and cause so much chaos that the cells have no choice but to undergo apoptosis, or a type of programmed cell death.Â
however, chemo canât really tell the different between a cancer cell and a healthy normal cell; it just so happens to be more effective at killing cells that divide quickly. so thatâs why chemo regimens arenât given over a really long period of time (treatment usually only lasts days), and why patients can experience side effects such as immunosuppression and gastrointestinal issues, as the immune cells and the cells lining our intestines are also fast dividers. theyâre civilian casualties, so to say :(
certain chemos tend to work better with certain cancers, which is why there are specific chemo regimens. chemos are oftentimes given as a batch rather than individually. for example, EPOCH-R is a combo of drugs that work as a team to attack different aspects of the NHL cells, and can achieve much better results than if any of them went on a solo mission. hereâs a breakdown of what each drug does:
Rituximab: this is an antibody that can bind specifically to B-cells, which in NHL have gone rogue and replication-happy. B-cells have a very specific protein on their surface, CD20, and rituximab gloms on like velcro. This causes natural killer cells and macrophages to recognize the B-cells as âforeignâ and attack them. It also causes the complement system to be activated by the B-cells, which also furthers destruction of the cell. The downside of rituximab is it doesnât discriminate between cancerous B-cells and normal B-cells though.Â
Etoposide: these dudes inhibit the topoisomerase, which is an enzyme that helps unwind DNA during cell replication. when DNA unwinds, the downstream strands tend to get tangled and bent (think of unwinding one of those old-school phone cordsâthe part of the cord youâre not straightening gets super stressed and coils in on itself). Cells donât like that, so they tell topoisomerase to go in and form small harmless nicks in the DNA to help relax it, and then when the DNA is unwound, it seals back the nick again. That last step is pretty crucial; without that action, DNA will just be floating around in fragments and the cell canât function and will undergo apoptosis. so by inhibiting topoisomerase, etoposide is able to kill the cell. like most chemos tho, it canât distinguish between cancer cells and non-cancer cells, but because cancer cells replicate so much faster than normal cells, and thus rely on topoisomerase so much more frequently, etoposide should be more effective in killing the cancer cells.Â
Prednisolone: i donât think the exact mechanism of how prednisolone kills cancer cells is well known. itâs used generally in low doses to dampen the immune system during allergic reactions, but with a high dose during chemo, it specifically causes immune cells (like NHL cells) to undergo apoptosis.Â
Oncovin: aka vincristine (which imo is a much prettier name). this drug binds to a protein called tubulin. tubulin is required during mitosis, or cell division, to form microtubulesâthink of tubulin as like the fibers of a rope. microtubules form the mitotic spindles which separates the two daughter cells during cell division, so without tubulin, the cells canât separate, things go haywire, and the cells undergo apoptosis. again, this drug isnât specific to cancer cells, but relies on the faster rate of cell division in cancer cells to âspareâ as many normal cells as possible.Â
Cyclophosphamide:Â this drug has a metabolite thatâs formed in NHL cells thatâs able to form crosslinks in the DNA, rendering it almost impossible for the cell to create RNA (and protein), or to replicate. without these functions, the cell undergoes apoptosis.Â
Hydroxydaunorubicin: aka doxorubicin. this drug is able to interacalate DNA, which means itâs able to get all nice and snug inside the DNA strand, and now the cell canât synthesize RNA or proteins, or replicate (much like the effect of crosslinking of DNA). itâs akin to getting a rock in your shoe, and the presence of the rock causes you to cease all normal function and undergo apoptosis. thatâs one deadly rock. it can also prevent topoisomerase from sealing DNA nicks (much like etoposide).
I hope that was a bit helpful! i maaayyy have delved into more detail than what you were looking for, but itâs all just really fascinating stuffâŚand i hope it gives you something to launch off of if youâre curious to learn more (and also feel free to ask me any questions you may have!)
good luck to your mom! iâm still rooting for her <3


















