Griffiths Lab
@griffithslab.bsky.social
Discovering the remarkable intracellular dynamics of killer T cells
This phenomenon is called "transcriptional adaptation", as coined by @stainierlab.bsky.social
Consistent with their NMD-mediated mechanism, we found targeting the promoter of Cdc42 avoids TA in CTLs. It also seems to be specific for CDC42 among Rho GTPases in CTLs.
Consistent with their NMD-mediated mechanism, we found targeting the promoter of Cdc42 avoids TA in CTLs. It also seems to be specific for CDC42 among Rho GTPases in CTLs.
August 4, 2025 at 7:31 PM
This phenomenon is called "transcriptional adaptation", as coined by @stainierlab.bsky.social
Consistent with their NMD-mediated mechanism, we found targeting the promoter of Cdc42 avoids TA in CTLs. It also seems to be specific for CDC42 among Rho GTPases in CTLs.
Consistent with their NMD-mediated mechanism, we found targeting the promoter of Cdc42 avoids TA in CTLs. It also seems to be specific for CDC42 among Rho GTPases in CTLs.
Multi-omics revealed that the knockout cells were compensating for the loss of CDC42 by transcriptionally upregulating genes that could enhance T cell function, including by upregulating the activity of related Rho GTPases!
August 4, 2025 at 7:31 PM
Multi-omics revealed that the knockout cells were compensating for the loss of CDC42 by transcriptionally upregulating genes that could enhance T cell function, including by upregulating the activity of related Rho GTPases!
CRISPR/Cas9-mediated gene deletion normally requires several days of recovery before assaying cellular function.
When we performed killing assays daily after delivery of RNPs, we found that the knockout cells initially pheno-copied inhibited cells, but then regained functionality over time
When we performed killing assays daily after delivery of RNPs, we found that the knockout cells initially pheno-copied inhibited cells, but then regained functionality over time
August 4, 2025 at 7:31 PM
CRISPR/Cas9-mediated gene deletion normally requires several days of recovery before assaying cellular function.
When we performed killing assays daily after delivery of RNPs, we found that the knockout cells initially pheno-copied inhibited cells, but then regained functionality over time
When we performed killing assays daily after delivery of RNPs, we found that the knockout cells initially pheno-copied inhibited cells, but then regained functionality over time
Inhibiting CDC42 with a chemical inhibitor (CASIN) gave the opposite result: worsened CTL function.
Meanwhile, the knockout cells showed *enhanced* function regardless of inhibitor treatment ...
Meanwhile, the knockout cells showed *enhanced* function regardless of inhibitor treatment ...
August 4, 2025 at 7:31 PM
Inhibiting CDC42 with a chemical inhibitor (CASIN) gave the opposite result: worsened CTL function.
Meanwhile, the knockout cells showed *enhanced* function regardless of inhibitor treatment ...
Meanwhile, the knockout cells showed *enhanced* function regardless of inhibitor treatment ...
Confusingly, we found the knockout cells performed *better* than control cells across killing, degranulation, migration, and signalling.
August 4, 2025 at 7:31 PM
Confusingly, we found the knockout cells performed *better* than control cells across killing, degranulation, migration, and signalling.
Sometimes, knocking out a gene isn't a good way to figure out the function of that gene ...
In our new @jcellsci.bsky.social paper, we report potent transcriptional adaptation by cytotoxic T lymphocytes (CTLs) in response to CRISPR/Cas9-mediated deletion of the important polarity protein CDC42 🧵⬇️
In our new @jcellsci.bsky.social paper, we report potent transcriptional adaptation by cytotoxic T lymphocytes (CTLs) in response to CRISPR/Cas9-mediated deletion of the important polarity protein CDC42 🧵⬇️
August 4, 2025 at 7:31 PM
Sometimes, knocking out a gene isn't a good way to figure out the function of that gene ...
In our new @jcellsci.bsky.social paper, we report potent transcriptional adaptation by cytotoxic T lymphocytes (CTLs) in response to CRISPR/Cas9-mediated deletion of the important polarity protein CDC42 🧵⬇️
In our new @jcellsci.bsky.social paper, we report potent transcriptional adaptation by cytotoxic T lymphocytes (CTLs) in response to CRISPR/Cas9-mediated deletion of the important polarity protein CDC42 🧵⬇️
As promised at my seminar at NCBS, here is the video showing what happens to the centrosome in a “confused T cell” that is contacting two targets with equal signals.
January 17, 2025 at 10:34 AM
As promised at my seminar at NCBS, here is the video showing what happens to the centrosome in a “confused T cell” that is contacting two targets with equal signals.
Welcome to the dynamic world of T cells!
January 8, 2025 at 9:59 AM
Welcome to the dynamic world of T cells!