Emma Haberman
@emmarose64.bsky.social
Immunologist | Post Doctoral Research Scientist & Junior Research Fellow at IDRM/ Jesus College Oxford 👩🏻🔬 | UoB BMedSci alumni 🦁| Scientific illustration enthusiast 🎨 | Synchronised ice skater ⛸️ | 🌻🇪🇺 she/her
Reposted by Emma Haberman
Great weekend celebrating @emmarose64.bsky.social's graduation with friends and family. Very proud! 😊
May 18, 2025 at 6:35 PM
Great weekend celebrating @emmarose64.bsky.social's graduation with friends and family. Very proud! 😊
Reposted by Emma Haberman
A huge thank you to all my co-authors, particularly Irina Lupu, Nils Kirschnick, @oliverastone.bsky.social and Friedemann Kiefer
I am grateful to have been part of a project that opens so many exciting questions for the field
For more details, please read our paper:
doi.org/10.1038/s441...
I am grateful to have been part of a project that opens so many exciting questions for the field
For more details, please read our paper:
doi.org/10.1038/s441...
Direct specification of lymphatic endothelium from mesenchymal progenitors - Nature Cardiovascular Research
Lupu, Grainger, Kirschnick et al. show that, contrary to prevailing belief, the initial specification of mammalian lymphatic endothelial cells primarily occurs from previously unidentified mesenchymal...
doi.org
January 13, 2025 at 2:31 PM
A huge thank you to all my co-authors, particularly Irina Lupu, Nils Kirschnick, @oliverastone.bsky.social and Friedemann Kiefer
I am grateful to have been part of a project that opens so many exciting questions for the field
For more details, please read our paper:
doi.org/10.1038/s441...
I am grateful to have been part of a project that opens so many exciting questions for the field
For more details, please read our paper:
doi.org/10.1038/s441...
Reposted by Emma Haberman
Finally, our proposed model showing LEC differentiation through in situ specification from ETV2+PROX1+ paraxial mesoderm-derived lymphangioblasts
January 13, 2025 at 2:31 PM
Finally, our proposed model showing LEC differentiation through in situ specification from ETV2+PROX1+ paraxial mesoderm-derived lymphangioblasts
Reposted by Emma Haberman
HCR (@hcrimaging.bsky.social) stainings suggest VEGFC/VEGFR3 signaling acts upstream of PROX1
In the absence of VEGFC/VEGFR3 signaling, specification of LECs from PXM stalls at the angioblast stage with Vegfc-/- embryos having more Etv2+Prox1- cells in the HDM.
In the absence of VEGFC/VEGFR3 signaling, specification of LECs from PXM stalls at the angioblast stage with Vegfc-/- embryos having more Etv2+Prox1- cells in the HDM.
January 13, 2025 at 2:31 PM
HCR (@hcrimaging.bsky.social) stainings suggest VEGFC/VEGFR3 signaling acts upstream of PROX1
In the absence of VEGFC/VEGFR3 signaling, specification of LECs from PXM stalls at the angioblast stage with Vegfc-/- embryos having more Etv2+Prox1- cells in the HDM.
In the absence of VEGFC/VEGFR3 signaling, specification of LECs from PXM stalls at the angioblast stage with Vegfc-/- embryos having more Etv2+Prox1- cells in the HDM.
Reposted by Emma Haberman
If migrating venous ECs are the major source of LECs, a substantial increase in EC numbers would be required to maintain venous integrity.
Analysis of cell cycle phase suggests angioblast-derived LECs and not venous ECs, are proliferative enough to support the rapid expansion of LECs.
Analysis of cell cycle phase suggests angioblast-derived LECs and not venous ECs, are proliferative enough to support the rapid expansion of LECs.
January 13, 2025 at 2:31 PM
If migrating venous ECs are the major source of LECs, a substantial increase in EC numbers would be required to maintain venous integrity.
Analysis of cell cycle phase suggests angioblast-derived LECs and not venous ECs, are proliferative enough to support the rapid expansion of LECs.
Analysis of cell cycle phase suggests angioblast-derived LECs and not venous ECs, are proliferative enough to support the rapid expansion of LECs.
Reposted by Emma Haberman
Conditional lineage tracing analyses using an inducible Pax3-CreERT2 line further highlighted the transient nature of this progenitor source, and demonstrated that lymphangioblasts give rise to LECs in various tissues.
January 13, 2025 at 2:31 PM
Conditional lineage tracing analyses using an inducible Pax3-CreERT2 line further highlighted the transient nature of this progenitor source, and demonstrated that lymphangioblasts give rise to LECs in various tissues.
Reposted by Emma Haberman
To better characterise lymphangioblast specification from PXM we performed snMultiome (RNA & ATAC) on Pax3-lineage progenitors and ECs at E9.5.
SCENIC+ analysis showed GRNs formed by known (ETV2/SOX18) and novel (EBF1/2) regulators of EC/LEC specification & differentiation in lymphangioblasts
SCENIC+ analysis showed GRNs formed by known (ETV2/SOX18) and novel (EBF1/2) regulators of EC/LEC specification & differentiation in lymphangioblasts
January 13, 2025 at 2:31 PM
To better characterise lymphangioblast specification from PXM we performed snMultiome (RNA & ATAC) on Pax3-lineage progenitors and ECs at E9.5.
SCENIC+ analysis showed GRNs formed by known (ETV2/SOX18) and novel (EBF1/2) regulators of EC/LEC specification & differentiation in lymphangioblasts
SCENIC+ analysis showed GRNs formed by known (ETV2/SOX18) and novel (EBF1/2) regulators of EC/LEC specification & differentiation in lymphangioblasts
Reposted by Emma Haberman
IF and HCR (@hcrimaging.bsky.social) staining of wholemount and vibratome sectioned E9.5 embryos identified lymphangioblasts as residing immediately dorsal to the cardinal vein in the Lbx1+ hypaxial dermomyotome in a pattern reminiscent of LECs migrating from the cardinal vein
January 13, 2025 at 2:31 PM
IF and HCR (@hcrimaging.bsky.social) staining of wholemount and vibratome sectioned E9.5 embryos identified lymphangioblasts as residing immediately dorsal to the cardinal vein in the Lbx1+ hypaxial dermomyotome in a pattern reminiscent of LECs migrating from the cardinal vein
Reposted by Emma Haberman
Surprisingly, we identified a population of cells that express both the angioblast marker Etv2 and the master regulator of LEC fate, Prox1. We have termed these cells lymphangioblasts.
January 13, 2025 at 2:31 PM
Surprisingly, we identified a population of cells that express both the angioblast marker Etv2 and the master regulator of LEC fate, Prox1. We have termed these cells lymphangioblasts.
Reposted by Emma Haberman
The prevailing model was that PXM-derived cells contribute to venous endothelium and then transdifferentiate to LECs
Irina Lupu's postdoc in Ollie's newly established lab aimed to define molecular features that may drive PXM's LEC competence using scRNA-seq on sorted EC and progenitor populations
Irina Lupu's postdoc in Ollie's newly established lab aimed to define molecular features that may drive PXM's LEC competence using scRNA-seq on sorted EC and progenitor populations
January 13, 2025 at 2:31 PM
The prevailing model was that PXM-derived cells contribute to venous endothelium and then transdifferentiate to LECs
Irina Lupu's postdoc in Ollie's newly established lab aimed to define molecular features that may drive PXM's LEC competence using scRNA-seq on sorted EC and progenitor populations
Irina Lupu's postdoc in Ollie's newly established lab aimed to define molecular features that may drive PXM's LEC competence using scRNA-seq on sorted EC and progenitor populations
Reposted by Emma Haberman
In 2019, @oliverastone.bsky.social and Didier Stainier identified Pax3+ paraxial mesoderm as the only lineage competent for LEC differentiation
www.sciencedirect.com/science/arti...
www.sciencedirect.com/science/arti...
Paraxial Mesoderm Is the Major Source of Lymphatic Endothelium
Endothelial cells (ECs), which line blood and lymphatic vessels, are generally described to come from the lateral plate mesoderm despite experimental …
www.sciencedirect.com
January 13, 2025 at 2:31 PM
In 2019, @oliverastone.bsky.social and Didier Stainier identified Pax3+ paraxial mesoderm as the only lineage competent for LEC differentiation
www.sciencedirect.com/science/arti...
www.sciencedirect.com/science/arti...
Reposted by Emma Haberman
✨Excited to share our work revisiting the developmental origins of mammalian lymphatic endothelial cells.✨
A summary of our key findings using scRNA-seq, snMultiome-seq and imaging to show the direct specification of mesenchymal progenitors to LECs🧵 #blutorial #blabstract
tinyurl.com/LECspec
A summary of our key findings using scRNA-seq, snMultiome-seq and imaging to show the direct specification of mesenchymal progenitors to LECs🧵 #blutorial #blabstract
tinyurl.com/LECspec
Direct specification of lymphatic endothelium from mesenchymal progenitors - Nature Cardiovascular Research
Lupu, Grainger, Kirschnick et al. show that, contrary to prevailing belief, the initial specification of mammalian lymphatic endothelial cells primarily occurs from previously unidentified mesenchymal...
tinyurl.com
January 13, 2025 at 2:31 PM
✨Excited to share our work revisiting the developmental origins of mammalian lymphatic endothelial cells.✨
A summary of our key findings using scRNA-seq, snMultiome-seq and imaging to show the direct specification of mesenchymal progenitors to LECs🧵 #blutorial #blabstract
tinyurl.com/LECspec
A summary of our key findings using scRNA-seq, snMultiome-seq and imaging to show the direct specification of mesenchymal progenitors to LECs🧵 #blutorial #blabstract
tinyurl.com/LECspec
Reposted by Emma Haberman
I'm not saying I spend too much time on the microscope but I can't help seeing blood vessels in christmas lights
December 3, 2024 at 9:26 PM
I'm not saying I spend too much time on the microscope but I can't help seeing blood vessels in christmas lights