RT @MCR_AACR: Read more relating to today's #AACR22 #BoneMetastasis session in the article, Stromal-Derived #ExtracellularVesicles Suppress…
RT @MCR_AACR: Read more relating to today's #AACR22 #BoneMetastasis session in the article, Stromal-Derived #ExtracellularVesicles Suppress…
Read more relating to today's #AACR22 #BoneMetastasis session in the article, Stromal-Derived #ExtracellularVesicles Suppress Proliferation of Bone Metastatic Cancer Cells Mediated by #ERK2 by Alison Shupp. https://t.co/AmGOzq3wRd @KMBussard @KimmelCancer
RT @MCR_AACR: Study by Shupp et al shows that small extracellular vesicles (sEVs) can suppress #BreastCancer proliferation in part through…
RT @MCR_AACR: Study by Shupp et al shows that small extracellular vesicles (sEVs) can suppress #BreastCancer proliferation in part through…
Study by Shupp et al shows that small extracellular vesicles (sEVs) can suppress #BreastCancer proliferation in part through regulation of ERK1/2 signaling underscoring the importance of sEV-mediated communication in earlier stages of cancer progression. h
RT @MCR_AACR: Study by Shupp et al shows that small extracellular vesicles (sEVs) can suppress #BreastCancer proliferation in part through…
RT @KimmelCancerCtr: New research from SKCC's Dr. @KMBussard & team suggests that "educated" osteoblast-derived small #ExtracellularVesicle…
RT @Lee_AgostiniPhD: Humbled to be a co-author on this work.
RT @KimmelCancerCtr: New research from SKCC's Dr. @KMBussard & team suggests that "educated" osteoblast-derived small #ExtracellularVesicle…
New #JeffersonResearch from The Bussard Lab!
Humbled to be a co-author on this work.
RT @MCR_AACR: Study by Shupp et al shows that small extracellular vesicles (sEVs) can suppress #BreastCancer proliferation in part through…
RT @MCR_AACR: Study by Shupp et al shows that small extracellular vesicles (sEVs) can suppress #BreastCancer proliferation in part through…
Study by Shupp et al shows that small extracellular vesicles (sEVs) can suppress #BreastCancer proliferation in part through regulation of ERK1/2 signaling underscoring the importance of sEV-mediated communication in earlier stages of cancer progression. h
RT @KimmelCancerCtr: New research from SKCC's Dr. @KMBussard & team suggests that "educated" osteoblast-derived small #ExtracellularVesicle…
RT @KimmelCancerCtr: New research from SKCC's Dr. @KMBussard & team suggests that "educated" osteoblast-derived small #ExtracellularVesicle…
RT @KimmelCancerCtr: New research from SKCC's Dr. @KMBussard & team suggests that "educated" osteoblast-derived small #ExtracellularVesicle…
New research from SKCC's Dr. @KMBussard & team suggests that "educated" osteoblast-derived small #ExtracellularVesicles may be one mechanism by which the bone #microenvironment suppresses #BreastCancer cell proliferation: https://t.co/xv4HZcTqlm @MCR_A
Study by Shupp et al shows that small extracellular vesicles (sEVs) can suppress #BreastCancer proliferation in part through regulation of ERK1/2 signaling underscoring the importance of sEV-mediated communication in earlier stages of cancer progression. h
New article: Stromal-derived extracellular vesicles suppress proliferation of bone metastatic cancer cells mediated by ERK2 https://t.co/TLGuo3TLnM #prostatecancer #oncology https://t.co/8mIhlu6WAA
New article: Stromal-derived extracellular vesicles suppress proliferation of bone metastatic cancer cells mediated by ERK2 https://t.co/E58vknqNWR #breastcancer #oncology https://t.co/l4S6ETj63G
New article: Stromal-derived extracellular vesicles suppress proliferation of bone metastatic cancer cells mediated by ERK2 https://t.co/NruxiXBUDr #MMSM #MultipleMyeloma #hematology https://t.co/famyG3LUEW