@srishtisahu.bsky.social
Reposted
In a medical breakthrough, a team including IGI’s
@urnov.bsky.social & @giannikopoulosp.bsky.social created an on-demand #CRISPR therapy for an infant with a deadly gene mutation — developed, approved, and delivered to the patient in just 6 months.
Read more: ow.ly/G0Bg50VTonC
#RareDisease 🧬
@urnov.bsky.social & @giannikopoulosp.bsky.social created an on-demand #CRISPR therapy for an infant with a deadly gene mutation — developed, approved, and delivered to the patient in just 6 months.
Read more: ow.ly/G0Bg50VTonC
#RareDisease 🧬
May 15, 2025 at 5:04 PM
In a medical breakthrough, a team including IGI’s
@urnov.bsky.social & @giannikopoulosp.bsky.social created an on-demand #CRISPR therapy for an infant with a deadly gene mutation — developed, approved, and delivered to the patient in just 6 months.
Read more: ow.ly/G0Bg50VTonC
#RareDisease 🧬
@urnov.bsky.social & @giannikopoulosp.bsky.social created an on-demand #CRISPR therapy for an infant with a deadly gene mutation — developed, approved, and delivered to the patient in just 6 months.
Read more: ow.ly/G0Bg50VTonC
#RareDisease 🧬
Reposted
For the first time, doctors have created a customized treatment using the revolutionary gene-editing technique known as CRISPR to treat a baby with a rare, life-threatening genetic disorder.
A promising genetic treatment tailor-made for a baby born with a rare disorder
For the first time, doctors have created a customized treatment using the revolutionary gene-editing technique known as CRISPR to treat a baby with a rare, life-threatening genetic disorder.
www.npr.org
May 15, 2025 at 5:19 PM
For the first time, doctors have created a customized treatment using the revolutionary gene-editing technique known as CRISPR to treat a baby with a rare, life-threatening genetic disorder.
I am presenting today at @asgct.bsky.social conference #ASGCT2025 on "Electroporation-free delivery of CRISPR enzymes for efficient multiplex genome editing of primary human immune cells and repair of patient mutations in the rare disease HLH".
If you are attending, stop by poster #779 tonight!
If you are attending, stop by poster #779 tonight!
May 13, 2025 at 5:32 PM
I am presenting today at @asgct.bsky.social conference #ASGCT2025 on "Electroporation-free delivery of CRISPR enzymes for efficient multiplex genome editing of primary human immune cells and repair of patient mutations in the rare disease HLH".
If you are attending, stop by poster #779 tonight!
If you are attending, stop by poster #779 tonight!
This was a beautifully put together talk, a recap of history in the making. I am so glad to have been in attendance to see this one in person.
Thanks to @isctglobal.bsky.social #isct2025
Thanks to @isctglobal.bsky.social #isct2025
Fred Hutch at #Tandem25: Catch Dr. Fred Appelbaum present "How We Got Here: Don Thomas, Marrow Transplantation & the Cell Therapy Revolution." Details: bit.ly/4hz8OZc
May 10, 2025 at 1:50 AM
This was a beautifully put together talk, a recap of history in the making. I am so glad to have been in attendance to see this one in person.
Thanks to @isctglobal.bsky.social #isct2025
Thanks to @isctglobal.bsky.social #isct2025
I am excited to share that I will be participating in ScaleReady’s breakfast panel session tomorrow, May 7, at the International Society for Cell & Gene Therapy conference.
May 7, 2025 at 6:04 PM
I am excited to share that I will be participating in ScaleReady’s breakfast panel session tomorrow, May 7, at the International Society for Cell & Gene Therapy conference.
Check out our new paper, out now in The CRISPR journal!
Cas9 gets an upgrade! Check out our new paper in The CRISPR Journal: bit.ly/hiNLS-Cas9 Eric Noel (who is on the job market!) created Cas9 constructs w/ nuclear localization signals (NLS) in the backbone, boosting genome editing activity in T cells, as seen by editor @srishtisahu.bsky.social #CRISPR
April 23, 2025 at 2:32 AM
Check out our new paper, out now in The CRISPR journal!
Reposted
This paper is incredibly detailed and should provide the information you need to get PERC working well for RNP delivery ex vivo using Cas9 or Cas12a. The big idea is to omit the electroporator and instead mix your RNP enzyme with an inexpensive and easy-to-use peptide.
March 19, 2025 at 8:15 AM
This paper is incredibly detailed and should provide the information you need to get PERC working well for RNP delivery ex vivo using Cas9 or Cas12a. The big idea is to omit the electroporator and instead mix your RNP enzyme with an inexpensive and easy-to-use peptide.
Reposted
We also built an FAQ page with some complementary resources, including recommendations on sourcing protein & peptide. We will continue updating this page with new information. Check it out!
www.rosswilsonlab.org/perc
www.rosswilsonlab.org/perc
PERC — Wilson Lab
www.rosswilsonlab.org
March 19, 2025 at 8:15 AM
We also built an FAQ page with some complementary resources, including recommendations on sourcing protein & peptide. We will continue updating this page with new information. Check it out!
www.rosswilsonlab.org/perc
www.rosswilsonlab.org/perc
Reposted
I'm proud to share our protocol on CRISPR enzyme delivery in primary human cells using PERC, a non-viral & hardware-independent technology. We previously described PERC in T cells, and here we extend its use to hematopoietic stem/progenitor cells (HSPCs).
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Peptide-enabled ribonucleoprotein delivery for CRISPR engineering (PERC) in primary human immune cells and hematopoietic stem cells - Nature Protocols
Peptide-enabled ribonucleoprotein delivery for CRISPR engineering (PERC) uses an amphiphilic peptide reagent to mediate intracellular delivery of CRISPR enzymes for high-efficiency editing of stimulat...
www.nature.com
March 19, 2025 at 8:14 AM
I'm proud to share our protocol on CRISPR enzyme delivery in primary human cells using PERC, a non-viral & hardware-independent technology. We previously described PERC in T cells, and here we extend its use to hematopoietic stem/progenitor cells (HSPCs).
www.nature.com/articles/s41...
www.nature.com/articles/s41...
Happy to share my new (first author) protocol paper, out now in Nature Protocols @natprot.bsky.social detailing an elaborate step-by-step of how to use PERC to deliver CRISPR RNPs in immune cells for ex vivo genome editing.
@rosswilsonlab.org
@rosswilsonlab.org
#NewNProt for Peptide-enabled #ribonucleoprotein delivery for #CRISPR engineering (PERC) for ex vivo #genomeediting of primary human cells bit.ly/3DdsrY0
Peptide-enabled ribonucleoprotein delivery for CRISPR engineering (PERC) in primary human immune cells and hematopoietic stem cells - Nature Protocols
Peptide-enabled ribonucleoprotein delivery for CRISPR engineering (PERC) uses an amphiphilic peptide reagent to mediate intracellular delivery of CRISPR enzymes for high-efficiency editing of stimulated immune cells and cultured hematopoietic stem and progenitor cells (HSPCs).
bit.ly
March 14, 2025 at 2:55 PM
Happy to share my new (first author) protocol paper, out now in Nature Protocols @natprot.bsky.social detailing an elaborate step-by-step of how to use PERC to deliver CRISPR RNPs in immune cells for ex vivo genome editing.
@rosswilsonlab.org
@rosswilsonlab.org
Reposted
Credit goes to everyone who contributed: Srishti Sahu, Lorena de Oñate, Bruno Solano, and especially lead author Christy George, who worked tirelessly on this review.
January 27, 2025 at 7:42 AM
Credit goes to everyone who contributed: Srishti Sahu, Lorena de Oñate, Bruno Solano, and especially lead author Christy George, who worked tirelessly on this review.
Reposted
Ex vivo therapies have predominated so far because they sidestep the substantial challenges of in vivo delivery. As potent as cell therapies can be, transplant can limit access and delay treatment. Fortunately, off-the-shelf T cell therapies and in vivo delivery are poised to change this landscape.
January 27, 2025 at 7:42 AM
Ex vivo therapies have predominated so far because they sidestep the substantial challenges of in vivo delivery. As potent as cell therapies can be, transplant can limit access and delay treatment. Fortunately, off-the-shelf T cell therapies and in vivo delivery are poised to change this landscape.
Reposted
Therapeutic genome editing of hematopoietic stem cells (HSCs) and T cells has been getting better and better over the last ~15 years, with progress greatly accelerated by the advent of CRISPR. Here's our timeline figure in presentation-friendly "landscape" format (an online exclusive 🤗)
January 27, 2025 at 7:42 AM
Therapeutic genome editing of hematopoietic stem cells (HSCs) and T cells has been getting better and better over the last ~15 years, with progress greatly accelerated by the advent of CRISPR. Here's our timeline figure in presentation-friendly "landscape" format (an online exclusive 🤗)
Reposted
I'm proud to share our review on CRISPR therapies for the blood. It has been about a year since Casgevy was approved for treatment of sickle cell disease, and edited CAR-T cells are showing more and more promise. Key figures shared below; paper is open access here: www.liebertpub.com/doi/full/10....
Genome Editing Therapy for the Blood: Ex Vivo Success and In Vivo Prospects | The CRISPR Journal
Hematopoietic stem cells (HSCs) provide the body with a continuous supply of healthy, functional blood cells. In patients with hematopoietic malignancies, immunodeficiencies, lysosomal storage disorde...
www.liebertpub.com
January 27, 2025 at 7:41 AM
I'm proud to share our review on CRISPR therapies for the blood. It has been about a year since Casgevy was approved for treatment of sickle cell disease, and edited CAR-T cells are showing more and more promise. Key figures shared below; paper is open access here: www.liebertpub.com/doi/full/10....