RT @NCICancerBio: Anindya Sen @JohnsHopkins is sharing the effects of exposure to elevated extracellular fluid viscosity on cell motility &…
RT @NCICancerBio: Anindya Sen @JohnsHopkins is sharing the effects of exposure to elevated extracellular fluid viscosity on cell motility &…
RT @NCICancerBio: Anindya Sen @JohnsHopkins is sharing the effects of exposure to elevated extracellular fluid viscosity on cell motility &…
RT @Anindya_SenJHU: Grateful for the opportunity to present my research at #NCIJI2023 . Thank you to all the members of the planning commit…
RT @NCICancerBio: Anindya Sen @JohnsHopkins is sharing the effects of exposure to elevated extracellular fluid viscosity on cell motility &…
Grateful for the opportunity to present my research at #NCIJI2023 . Thank you to all the members of the planning committee @theNCI for organizing such a wonderful conference. Can’t wait for coming back next year!
RT @NCICancerBio: Anindya Sen @JohnsHopkins is sharing the effects of exposure to elevated extracellular fluid viscosity on cell motility &…
Anindya Sen @JohnsHopkins is sharing the effects of exposure to elevated extracellular fluid viscosity on cell motility & #metastasis. Read more about how extracellular fluid viscosity enhances cell migration & cancer dissemination in @Nature: http
RT @bruceekirk: @WallaceUcsf could be related to mechanics, whether that’s adaptive to avoid immune detection (https://t.co/1guitUVkPp) or…
@WallaceUcsf could be related to mechanics, whether that’s adaptive to avoid immune detection (https://t.co/1guitUVkPp) or programming from the increased viscosity of the tumor microenvironment (https://t.co/JlvGLcJRaD)
@XavierTrepat Methyl cellulose works nicely. You can also use high molecular weight dextran and compare it against low MW dextran as we showed here https://t.co/C3ATGw3PUO
RT @KaustavBera11: Beyond excited for my first-author article, now out in @Nature! In my PhD @KKLabJHU @INBT_JHU @JHU_ChemBE @HopkinsEngine…
RT @KaustavBera11: Beyond excited for my first-author article, now out in @Nature! In my PhD @KKLabJHU @INBT_JHU @JHU_ChemBE @HopkinsEngine…
An interesting study published in @Nature shows that Ezrin plays a critical role in cancer cell dissemination enhanced by extracellular fluid viscosity https://t.co/12w2DDqSXn
We had our first journal club of 2023 this week!! We really enjoyed reading and discussing work from @KKLabJHU led by @KaustavBera11 about the influence of extracellular viscosity on cancer cell migration --> https://t.co/CoXV3ckjw0
“Extracellular fluid viscosity enhances cell migration and cancer dissemination” Read the study at https://t.co/i9aHd7HkjH 🔓 @NaturePortfolio #NIAMSFunded @carnegiescience #MouseModels
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/vk8uIQz6Lv
RT @medical_xpress: New clue discovered as to how and why ##cancercells spread @ualberta @nature https://t.co/wUKJwzgxeX https://t.co/o69Nm…
RT @Labome: The phenomenon of metastasis - how and why malignant cells spread - is now illuminated as being enhanced by extracellular fluid…
The phenomenon of metastasis - how and why malignant cells spread - is now illuminated as being enhanced by extracellular fluid viscosity; a potential new drug target identified to stop deadly metastases responsible for 90% of cancer deaths. https://t.co/c
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
Cancer Cells Migrate Faster When Surrounded by Thicker Fluid… https://t.co/bMdhAUBfnZ
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
@Geeky_Foodie
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @medical_xpress: New clue discovered as to how and why ##cancercells spread @ualberta @nature https://t.co/wUKJwzgxeX https://t.co/o69Nm…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
RT @ajitjohnson_n: Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could pro…
Scientists have identified a new mechanism that allows cancer cells to move throughout the body. The discovery could provide a new target for stopping metastasis, which is responsible for 90% of cancer deaths. Congratulations @KaustavBera11 @KKLabJHU https
Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/l678DQ28as
RT @medical_xpress: New clue discovered as to how and why ##cancercells spread @ualberta @nature https://t.co/wUKJwzgxeX https://t.co/o69Nm…
RT @weldeiry: Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/2dpoAH699M
Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/2dpoAH699M
Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/8JaOVYGFmy
RT @medical_xpress: New clue discovered as to how and why ##cancercells spread @ualberta @nature https://t.co/wUKJwzgxeX https://t.co/o69Nm…
New clue discovered as to how and why ##cancercells spread @ualberta @nature https://t.co/wUKJwzgxeX https://t.co/o69NmmZUhq
RT @Amro_Hussien: Highly viscous fluids imprint a TRPV4-dependent #mechanical memory in cells through transcriptional control of YAP | @Nat…
RT @xchromosome: Viscosity is an important, physical parameter of the extracellular environment (cell migration). How the viscosity of the…
Viscosity is an important, physical parameter of the extracellular environment (cell migration). How the viscosity of the interstitial fluid in different tissues and contexts could impact morphogenetic movements, tissue regeneration, and cancer metastasis?
RT @mayor_lab: Extracelular fluid viscosity as a cues that can control cell migration. Interesting mechanism: actin reorganisation, cell sw…
RT @mayor_lab: Extracelular fluid viscosity as a cues that can control cell migration. Interesting mechanism: actin reorganisation, cell sw…
RT @mayor_lab: Extracelular fluid viscosity as a cues that can control cell migration. Interesting mechanism: actin reorganisation, cell sw…
RT @mayor_lab: Extracelular fluid viscosity as a cues that can control cell migration. Interesting mechanism: actin reorganisation, cell sw…
RT @mayor_lab: Extracelular fluid viscosity as a cues that can control cell migration. Interesting mechanism: actin reorganisation, cell sw…
RT @mayor_lab: Extracelular fluid viscosity as a cues that can control cell migration. Interesting mechanism: actin reorganisation, cell sw…
RT @mayor_lab: Extracelular fluid viscosity as a cues that can control cell migration. Interesting mechanism: actin reorganisation, cell sw…
Extracelular fluid viscosity as a cues that can control cell migration. Interesting mechanism: actin reorganisation, cell swelling, membrane tension, calcium flow and RhoA activity. Possible implications in morphogenesis. https://t.co/uLH6ht7CJj
RT @KaustavBera11: Many thanks for highlighting our work @NatRevMCB! https://t.co/cgHa4UlByJ @KKLabJHU @mistrigr @JHU_ChemBE @INBT_JHU
RT @KaustavBera11: Many thanks for highlighting our work @NatRevMCB! https://t.co/cgHa4UlByJ @KKLabJHU @mistrigr @JHU_ChemBE @INBT_JHU
RT @KaustavBera11: Many thanks for highlighting our work @NatRevMCB! https://t.co/cgHa4UlByJ @KKLabJHU @mistrigr @JHU_ChemBE @INBT_JHU
RT @KaustavBera11: Many thanks for highlighting our work @NatRevMCB! https://t.co/cgHa4UlByJ @KKLabJHU @mistrigr @JHU_ChemBE @INBT_JHU
Many thanks for highlighting our work @NatRevMCB! https://t.co/cgHa4UlByJ @KKLabJHU @mistrigr @JHU_ChemBE @INBT_JHU
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @Amro_Hussien: Highly viscous fluids imprint a TRPV4-dependent #mechanical memory in cells through transcriptional control of YAP | @Nat…
RT @Amro_Hussien: Highly viscous fluids imprint a TRPV4-dependent #mechanical memory in cells through transcriptional control of YAP | @Nat…
This week #JournalClub @LabSoap @Nature #viscosity #migration #actin #channel and more https://t.co/RDXJB58y5W
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
Excited to speak @ChEnected on the role of surrounding fluid viscosity upon cancer,from @KKLabJHU(ref. https://t.co/DP0uI1xhEp)! In the same session Prof. Romer from @JohnsHopkins will speak about substrate curvature, stiffness & cell organization (ref
RT @JishnuSenGupta: Such an interesting paper !Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature http…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
細胞外液の粘稠性が高いほうががん細胞の移動や播種を却って増強するという論文。その際にNHE1が媒介する細胞の膨隆とRHOAによって刺激される細胞の伸縮性が関与するようだ。Nature。 https://t.co/0ekaCklmn2
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @KKLabJHU: Delighted to see that our @Nature article (https://t.co/ahrZWXZ5jx) about how extracellular fluid viscosity increases cell mo…
RT @JishnuSenGupta: Such an interesting paper !Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature http…
Such an interesting paper !Extracellular fluid viscosity enhances cell migration and cancer dissemination | Nature https://t.co/kRD7uu89Ry