When we knocked down calmodulin in healthy T cells, their KCa3.1 function decreased and they lost their ability to chemotax in an adenosine rich environment, similar to what we had previously reported in cancer T cells. https://t.co/wZIvwG8voK (@scisignal

We have shown previously @scisignal that cytotoxic CD8+ T cells fail to infiltrate the adenosine rich solid tumors and this is because of a functional defect in the KCa3.1 channels in the cancer T cells https://t.co/wZIvwG8voK https://t.co/3IOLjElzpn

RT @ameetchimote: @OncoBites @sara_musetti Also check out our paper in @scisignal that shows that that the high adenosine in tumors inhibit…

@OncoBites @sara_musetti Also check out our paper in @scisignal that shows that that the high adenosine in tumors inhibits the ability of the CD8 T cells to chemotax and therefore infiltrate https://t.co/wZIvwFQU0a Keep up the good work on @OncoBites - I’

@armish @PaulosLab @hammer_lab Pretty cool assay and wonderful experimental design and schematics. Check out our paper @scisignal where we performed 3D chemotaxis on primary T cells in the presence of CXCL12. https://t.co/wZIvwG8voK Congrats the the team!

RT @scisignal: Adenosine inhibits the migration of T cells from cancer patients due to reduced KCa3.1 K+ channel activity https://t.co/Jfuj…

RT @ameetchimote: Honored that our work is featured by @scisignal as #bestof2018 @TMWiseDraper @michael_arnold2 @UCHealthNews @UC_CoMRese…

RT @scisignal: Adenosine inhibits the migration of T cells from cancer patients due to reduced KCa3.1 K+ channel activity https://t.co/Jfuj…

RT @ameetchimote: Honored that our work is featured by @scisignal as #bestof2018 @TMWiseDraper @michael_arnold2 @UCHealthNews @UC_CoMRese…

RT @ameetchimote: Honored that our work is featured by @scisignal as #bestof2018 @TMWiseDraper @michael_arnold2 @UCHealthNews @UC_CoMRese…

RT @scisignal: Adenosine inhibits the migration of T cells from cancer patients due to reduced KCa3.1 K+ channel activity https://t.co/Jfuj…

Honored that our work is featured by @scisignal as #bestof2018 @TMWiseDraper @michael_arnold2 @UCHealthNews @UC_CoMResearch

RT @scisignal: Adenosine inhibits the migration of T cells from cancer patients due to reduced KCa3.1 K+ channel activity https://t.co/Jfuj…

Adenosine inhibits the migration of T cells from cancer patients due to reduced KCa3.1 K+ channel activity https://t.co/JfujIAfmsK @uofcincy @ameetchimote #ionchannels #cancerimmunity #BestOf2018 https://t.co/ONkUVYebU6

RT @2018ici: Hear Laura Conforti @2018ici discuss her study @scisignal about potassium channels and immune surveillance in cancer. https://…

RT @2018ici: Hear Laura Conforti @2018ici discuss her study @scisignal about potassium channels and immune surveillance in cancer. https://…

RT @2018ici: Hear Laura Conforti @2018ici discuss her study @scisignal about potassium channels and immune surveillance in cancer. https://…

Hear Laura Conforti @2018ici discuss her study @scisignal about potassium channels and immune surveillance in cancer. https://t.co/676UfF0PTD

RT @ameetchimote: We are very excited and proud that our new paper is out in the latest issue of @scisignal ! #Immunology #cancer #tcells #…

RT @scisignal: #Adenosine inhibits 3D migration of #Tcells from cancer patients that have reduced KCa3.1 channel activity @uofcincy @ameetc…

#Adenosine inhibits 3D migration of #Tcells from cancer patients that have reduced KCa3.1 channel activity @uofcincy @ameetchimote @TMWiseDraper https://t.co/XqLQadBc4m

RT @humanimmunenews: A Defect in KCa3.1 Channel Activity Limits the Ability of CD8+ T Cells from Cancer Patients to Infiltrate an Adenosine…

RT @humanimmunenews: A Defect in KCa3.1 Channel Activity Limits the Ability of CD8+ T Cells from Cancer Patients to Infiltrate an Adenosine…

@EladSharonMD : It was very nice to meet you today at #AAI2018 . Please check our latest paper in @scisignal https://t.co/K4C3kunXyN

A Defect in KCa3.1 Channel Activity Limits the Ability of CD8+ T Cells from Cancer Patients to Infiltrate an Adenosine-Rich Microenvironment @uofcincy https://t.co/iM3nJL7Mmx

RT @scisignal: Scientists find that boosting the activity of potassium channels restores the migration of #Tcells from cancer patients norm…

RT @scisignal: Scientists find that boosting the activity of potassium channels restores the migration of #Tcells from cancer patients norm…

Scientists find that boosting the activity of potassium channels restores the migration of #Tcells from cancer patients normally inhibited by #adenosine @uofcincy @ameetchimote @TMWiseDraper: https://t.co/XqLQadBc4m https://t.co/jaJK8dYMMq

RT @bemygene: #Research|A defect in KCa3.1 channel activity limits the ability of CD8+ T cells from #cancer patients to infiltrate an adeno…

#Research|A defect in KCa3.1 channel activity limits the ability of CD8+ T cells from #cancer patients to infiltrate an adenosine-rich microenvironment. ➡ https://t.co/iB1jHlRfd3 @sciencemagazine

Thank you @ImmunoSignaling for spreading the word about our paper in @scisignal https://t.co/E43mkaj6Nc

RT @scisignal: #Adenosine inhibits 3D migration of #Tcells from cancer patients that have reduced KCa3.1 channel activity @uofcincy @ameetc…

RT @ameetchimote: We are very excited and proud that our new paper is out in the latest issue of @scisignal ! #Immunology #cancer #tcells #…

RT @ameetchimote: We are very excited and proud that our new paper is out in the latest issue of @scisignal ! #Immunology #cancer #tcells #…

RT @Aenoreth: A defect in KCa3.1 channel activity limits the ability of CD8+ T cells from cancer patients to infiltrate an adenosine-rich m…

RT @AlvaroLladser: A defect in KCa3.1 channel activity limits the ability of CD8+ T cells from cancer patients to infiltrate an adenosine-r…

RT @proteindynamics: A defect in KCa3.1 channel activity limits the ability of CD8 T cells from cancer patients to infiltrate an adenosine…

RT @ameetchimote: We are very excited and proud that our new paper is out in the latest issue of @scisignal ! #Immunology #cancer #tcells #…

RT @ameetchimote: We are very excited and proud that our new paper is out in the latest issue of @scisignal ! #Immunology #cancer #tcells #…

RT @scisignal: #Adenosine inhibits 3D migration of #Tcells from cancer patients that have reduced KCa3.1 channel activity @uofcincy @ameetc…

We are very excited and proud that our new paper is out in the latest issue of @scisignal ! #Immunology #cancer #tcells #ionchannels @michael_arnold2 @UCHealthNews @UC_CoMResearch https://t.co/IQkl4jj6P8

#Adenosine inhibits 3D migration of #Tcells from cancer patients that have reduced KCa3.1 channel activity @uofcincy @ameetchimote @TMWiseDraper https://t.co/XqLQadBc4m https://t.co/UxONMjZLz7

A defect in KCa3.1 channel activity limits the ability of CD8+ T cells from cancer patients to infiltrate an adenosine-rich microenvironment https://t.co/fuAvprIhhL

A defect in KCa3.1 channel activity limits the ability of CD8+ T cells from cancer patients to infiltrate an adenosine-rich microenvironment https://t.co/0rByknnKB9