Soon after KJ Muldoon was born in the summer of 2024, he was diagnosed with a rare genetic disorder that is fatal for about half the infants who are born with it.
Until now, the only effective long-term treatment for the rare metabolic disease known as severe Carbamoyl Phosphate Synthetase 1 deficiency, or CPS1, had been a liver transplant.
Instead, doctors at the Children’s Hospital of Philadelphia told KJ’s family they could try something never done before. They would use a technology known as CRISPR, a personalized gene-editing therapy, to find the one uniquely mutated gene out of 20,000 in his little body, and fix it.
He became the first known patient in the world to be treated using CRISPR personalized just for him, according to a news release from Penn Medicine. His case was published Thursday in the New England Journal of Medicine.
I don’t have an agenda, but the post states that it is the first case of personalized human gene editing. Was the chinese doctor’s not “personalized”?
Fair enough
… fair enough? It would seem that its either good or bad and the odds of death being high shouldn’t effect whether it’s a good or bad idea. If i misunderstanding lmk
From my understanding, thats not really the issue. Humanity has decided that gene editing is not to be fucked with, have we not? I used to study gene editing and from everything I read and heard it would be universally illegal for me to edit an embryo and then implant it under any circumstances. Has that changed? Did I misunderstand in the first place?
I’ve always been very pro gene editing, but I want to to be approached as safely as possible. I’d prefer for it to only be done on consenting adults, and in such a way that any altered genes are non contagious and non hereditary. I guess I do kinda have a dog in this race, but only insofar as I don’t want rogue scientists bringing negative press to a positive tool, or the resulting damage to life those rogue scientists can do.
Both very good points. I didn’t mean to portray it as though consent was unimportant here, but I meant that even with consent I figured airing this would result in this doctors medical license being revoked. Did he get the consent (sorry) of the medical community?
Edit:also still curious about this being the “first” case
Oh! Understood.
This is not the first time somatic gene therapy has been successfully performed, and it does indeed get the consent of the FDA! In the link is a different treatment, similar principle.
I’m sorry, I should have realized this was what you were asking about!
The #1 from the beginning was way more biologically and legally important than it might have seemed at first - the child was already alive.
The key difference between the two cases is germline vs somatic.
Germline editting is what occurred with the twin embryos. The germline is your hereditary/genetic line - reproductive cells and embryonic stem cells. This involves permanently altering the evolutionary path of humanity, at least for your offspring and descendants. (Fun fact - on a long enough time scale, any given human eventually becomes either ancestor to all, or ancestor to none. So a germline edit could literally change all of humanity!)
Editting the germline is generally still illegal, and arguably for very good reason, at least at humanity’s current stage of science and social ethics.
Somatic gene editting is altering the DNA in somatic cells, which have already differentiated and specialized. This is almost all of the normal cells in your body. These cells can
often(e: occasionally) reproduce more cells, but generally cannot ever produce different cells. Your bone marrow can never create a neuron, for example. An embryonic stem cell can create anything.In this case, the gene therapy targets only the liver cells and makes the needed change. Unlike germline therapy, somatic therapy like this shouldn’t affect anything in the body other than the liver. Which was already busted to begin with, which obviously decides the risk/reward calculation.
The “personalization” is from editting the child’s cells and DNA directly. It looks like past treatments involved editting immune cells outside the body and transfusing them into the patient. I presume those were someone else’s immune cells. People trade them all the time with blood transfusions.
So this is a pretty exciting development! But yeah, very different cases biologically speaking, not just ethically.
And rereading your past comment, this is exactly what you were talking about. So sorry I missed that. This is, in fact, non hereditary, non contagious gene editting!
Ah yes, exactly the insights I was hoping for! I studied that back in high school, so it was a bit difficult to recall the terminology. I’m going to reread the article, but with that in mind if we now have the technology to safely apply crispr in body that is awesome! I recall it uses an engineered retrovirus to deliver the “payload” so im curious how they targeted it.
I’m having trouble finding more information on this particular treatment, so I can’t be certain this is the same methodology but I did find what seems like a great comprehensive source on genome editting that may explain it.
Basically, they may have taken liver cells out, editted them, and put them back into the body, presumably without any of the DNA editting delivery mechanism that was used to do the edit. Those cells then incorporate into the liver and continue making more of themselves while producing the enzymes the patient needs.
The liver is weird and awesome.
Oh wow, great resources. I finally had the chance to reread through the articles and that study, and thats absurdly exciting!
It’s crazy that the story about the chinese doctor partially played a role in getting the fda to sign off on that. I can’t wait for more research into miostatin and whether it’s truly a safe gene to edit.
Also thats where a lot of my fear comes in for these projects. Obv gene editing is a massively useful tool, and for “fixing” genes its pretty safe, but what I want to see is crazy “unnatural” edits, so long as they’re safe. It’s just difficult to research these edits in depth because historically there hasnt really been a legal route to research these edits afaik
There is actually a tremendous amount of ongoing research into germline gene editting! GMO agricultural crops are the most obvious (and quite controversial, in large part because of corporations like Monsanto).
But you probably have heard the recent stories about the so-called “Dire Wolf”. Hank Green has an excellent video explaining that. But that is germline gene editting!
You should also look into actual de-extinction projects, like with the American Chestnut Tree.
The point is, we are doing germline gene editting research! But the human genome - and in fact almost all genomes - are ridiculously complex, and edits can have wildly unintended consequences that can persist for generations.
We can rip DNA apart and read every last molecule of nucleic acid. We can sequence it down to a complete and exact dataset of your entire existence. But we can’t completely map it structurally - epigenetics is the study of how the same DNA sequence can be twisted and knotted to behave differently at different times.
Even if we could map the whole shape of the epigenome - which is a remarkable challenge - we are quite far from actually decrypting that data and understanding it completely! It still wouldn’t tell us the complete story, because epigenetic changes can occur throughout an organism’s entire lifespan, some of them scheduled as part of development, some of them in response to environmental conditions like stress or starvation!
Most of our understanding of what DNA actually does comes from loss-of-function experiments, where we just destroy pieces of it and see what happens. There are also gain-of-function experiments, where we just add new pieces and see what happens. But the point is, until we actually do the experiment, we really don’t know for sure what’s going to happen.
There’s a lot of obvious reasons why that isn’t performed in humans, and arguably shouldn’t be for quite some time. The risks currently far outweigh the rewards, because we don’t yet have enough understanding to even quantify the risks or the rewards.
We can test on animal analogues like rats and chimpanzees, but we still have a lot of biological infrastructure that is entirely unique to humans. Our bipedal structure and oversized prefrontal cortexes make things quite complicated.
Advancements in epigenetic analysis, protein folding, and mRNA function will bring us dramatically closer, though! All promising avenues in which we are making leaps and bounds every decade. Or we were, but the US has unfortunately started dismantling its health sciences research and become actively hostile to universities.