Xu Zhou lab @ BCH & HMS
@xuzhoulab.bsky.social
AP @BostonChildrens @harvardmed AM @broadinstitute
inflammation, tissue biology, quant.&systems immunology #1stGen #ImmigrantScientists #NewPI
inflammation, tissue biology, quant.&systems immunology #1stGen #ImmigrantScientists #NewPI
Thank you so much Igor! It was a fun journey :)
July 22, 2025 at 9:16 PM
Thank you so much Igor! It was a fun journey :)
Thank you Sunny!
July 22, 2025 at 6:50 PM
Thank you Sunny!
Thanks Junjie~
July 22, 2025 at 3:21 PM
Thanks Junjie~
Thank you Meghan!
July 22, 2025 at 3:21 PM
Thank you Meghan!
This long journey started ~10yr ago when I was postdoc with @rmedzhitov.bsky.social. twists and turns along the way&many hypotheses proven wrong. This journey is impossible without generous support from my former mentor and labmates, talented people in my own group and collaborators&colleagues.
July 22, 2025 at 2:21 PM
This long journey started ~10yr ago when I was postdoc with @rmedzhitov.bsky.social. twists and turns along the way&many hypotheses proven wrong. This journey is impossible without generous support from my former mentor and labmates, talented people in my own group and collaborators&colleagues.
last but not least, BRD4 are broadly expressed in different cell types. We found consistent pH-dependent regulation across immune, stromal, epithelial and tumor cells, including both mouse and human. More examples are accumulating in-house. feel free to dm / email me if anybody is interested.
July 22, 2025 at 2:15 PM
last but not least, BRD4 are broadly expressed in different cell types. We found consistent pH-dependent regulation across immune, stromal, epithelial and tumor cells, including both mouse and human. More examples are accumulating in-house. feel free to dm / email me if anybody is interested.
we hypothesize that BRD4 condensates could function as an internal pH meter to gauge cellular state linked to inflammatory activation and metabolism, by controlling the expression of key metabolic genes. 22/n
July 22, 2025 at 2:12 PM
we hypothesize that BRD4 condensates could function as an internal pH meter to gauge cellular state linked to inflammatory activation and metabolism, by controlling the expression of key metabolic genes. 22/n
and a similar response happens in vivo! 21/n
July 22, 2025 at 2:09 PM
and a similar response happens in vivo! 21/n
As immune activation tends to increase intracellular and extracellular acidification, we turned to look at what happens just with LPS stimulation. And it is sufficient to reduce BRD4 condensates in vitro 20/n
July 22, 2025 at 2:07 PM
As immune activation tends to increase intracellular and extracellular acidification, we turned to look at what happens just with LPS stimulation. And it is sufficient to reduce BRD4 condensates in vitro 20/n
for anybody who is curious what make a gene dependent or not on BRD4 condensates: we don't have the answer yet, but we found that pH-sensitive genes seem to have the most recruitment of BRD4 to their enhancers. In another words, BRD4 recruitment might be a predictor of pH-sensitive expression.19/n
July 22, 2025 at 2:06 PM
for anybody who is curious what make a gene dependent or not on BRD4 condensates: we don't have the answer yet, but we found that pH-sensitive genes seem to have the most recruitment of BRD4 to their enhancers. In another words, BRD4 recruitment might be a predictor of pH-sensitive expression.19/n
disruption of BRD4 condensates leads to disruption of MED1 condensates, which likely explains the suppressed the inflammatory activation in macrophages (more to come about these mechanisms!) 18/n
July 22, 2025 at 2:05 PM
disruption of BRD4 condensates leads to disruption of MED1 condensates, which likely explains the suppressed the inflammatory activation in macrophages (more to come about these mechanisms!) 18/n
surprisingly, we found that only histidine residues in selective regions of BRD4-IDR are required for pH sensitivity, and that consecutive histidine can give rise to pH-sensitivity in biomolecular condensates at physiological pH range.
17/n
17/n
July 22, 2025 at 2:02 PM
surprisingly, we found that only histidine residues in selective regions of BRD4-IDR are required for pH sensitivity, and that consecutive histidine can give rise to pH-sensitivity in biomolecular condensates at physiological pH range.
17/n
17/n
Swapping histidines (ph sensitive around 6-7) to alanine can reverse the pH-dependent regulation on transcriptional condensates. 16/n
July 22, 2025 at 2:01 PM
Swapping histidines (ph sensitive around 6-7) to alanine can reverse the pH-dependent regulation on transcriptional condensates. 16/n
This response is regulated by enriched and conserved histidines on BRD4-IDR 15/n
July 22, 2025 at 2:00 PM
This response is regulated by enriched and conserved histidines on BRD4-IDR 15/n
with suggestions from reviewers, we brought up our game to super-resolution microscopy to characterize the changes of native BRD4 condensates with STED scope & thanks to help from Krishnan Raghunathan and Thiagarajah lab👍
July 22, 2025 at 1:59 PM
with suggestions from reviewers, we brought up our game to super-resolution microscopy to characterize the changes of native BRD4 condensates with STED scope & thanks to help from Krishnan Raghunathan and Thiagarajah lab👍
@bsabari.bsky.social @richardyonck.com @whiteheadinstitute.bsky.social Arup Chakraborty @mitpress.bsky.social among other pioneers in biomolecular #condensates showed that BRD4 forms transcriptional condensates. We found that these condensates native to macrophages are disrupted by acidic pH. 13/n
July 22, 2025 at 1:57 PM
@bsabari.bsky.social @richardyonck.com @whiteheadinstitute.bsky.social Arup Chakraborty @mitpress.bsky.social among other pioneers in biomolecular #condensates showed that BRD4 forms transcriptional condensates. We found that these condensates native to macrophages are disrupted by acidic pH. 13/n
Based on features of the disordered loop in yeast SNF5. Diana Leung in my lab did an in silico screening and found mammalian BRD4 as putative pH sensor. Happy to chat about the bioinformatic work if anyone is interested. 12/n
July 22, 2025 at 1:51 PM
Based on features of the disordered loop in yeast SNF5. Diana Leung in my lab did an in silico screening and found mammalian BRD4 as putative pH sensor. Happy to chat about the bioinformatic work if anyone is interested. 12/n
A clue came from a cool budding yeast paper in 2022 from Liam Holt' lab @nyupress.bsky.social a disordered loop with 2 Histidines is pH-sensitive! Although it is not conserved in mammals, it gave us some clues what to look for. 11/n elifesciences.org/articles/70344
SWI/SNF senses carbon starvation with a pH-sensitive low-complexity sequence
A combination of single-cell analysis, genomics, and simulations shows that a glutamine-rich low-complexity sequence in the SWI/SNF chromatin remodeling complex senses transient intracellular acidific...
elifesciences.org
July 22, 2025 at 1:50 PM
A clue came from a cool budding yeast paper in 2022 from Liam Holt' lab @nyupress.bsky.social a disordered loop with 2 Histidines is pH-sensitive! Although it is not conserved in mammals, it gave us some clues what to look for. 11/n elifesciences.org/articles/70344
But how does it happen? We tested differential signaling, protein translation, global epigenetic modification etc. all proven wrong. a few good years of negative data 10/n
July 22, 2025 at 1:49 PM
But how does it happen? We tested differential signaling, protein translation, global epigenetic modification etc. all proven wrong. a few good years of negative data 10/n
this analysis suggested that inflammatory genes partition into functions for immediate microbial defense and propagations of inflammatory cascade in a pH-dependent manner 9/n
July 22, 2025 at 1:48 PM
this analysis suggested that inflammatory genes partition into functions for immediate microbial defense and propagations of inflammatory cascade in a pH-dependent manner 9/n