More Pauli mechanistic goodness:
RT @EstebanDL: @lipo_fan Pero tené presente que trancitosis, principalmente compromete receptor scavenger (SRB1) https://t.co/Fi1PCKNv7G E…
RT @EstebanDL: @lipo_fan Pero tené presente que trancitosis, principalmente compromete receptor scavenger (SRB1) https://t.co/Fi1PCKNv7G E…
@lipo_fan Pero tené presente que trancitosis, principalmente compromete receptor scavenger (SRB1) https://t.co/Fi1PCKNv7G Esto no suele estar implicado si todo funciona bien
@PKennedyeMD 1) lowering particle number via diff mechanisms (pharma, diet, genetics etc) lowers risk, raising them raises it. this huge body of evidence disproves the "firefighter" idea 2) transcytosis from the lumen occurs thru SRB-I https://t.co/HhTpIh
Nuestro seminario 😅
@cienciaycon @jaimeraulmolina Incluso, se desafía el concepto actual que LDL ingresa en forma pasiva. https://t.co/scld0Etnpa
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
@erik_arnesen I may have noticed that.. 😉 https://t.co/IMZRmxQHD0
@POhukainen Haven't heard about these claims before, but it's far above my league anyway. But did you see this? Surprising? ---> SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/lvKBC7EWhw
SR-B1 drives endothelial cell #LDL transcytosis via DOCK4 to promote #atherosclerosis https://t.co/CV88Nimm9e ❤️
SR-B1 drives endothelial cell LDL transcytosis via DOCK 4 to promote atherosclerosis https://t.co/nJpmytlU9g
“Soon” we’ll have to find another job @mmamas1973 @GreggWStone @DLBHATTMD @nolanjimradial @SVRaoMD @TheBJCA #Cardiology https://t.co/uQ2JepcBez
SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/nIKO56DCS6
https://t.co/oReOkMl86E SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis Nature
RT @JPSwcpmc: Active and passive mechanisms for cholesterol accumulation in subendolthelial space? https://t.co/ksGdYStV8q
RT @JPSwcpmc: Active and passive mechanisms for cholesterol accumulation in subendolthelial space? https://t.co/ksGdYStV8q
Active and passive mechanisms for cholesterol accumulation in subendolthelial space? https://t.co/ksGdYStV8q
@simonplee @holmanm @VernersViews Particles need NOT be modified before entering, as shown by recent studies. https://t.co/cDD5YepZ8T
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
Really good thread. A few pieces of nuance that i think would augment the discussion/conclusion, but all-in-all a really good set of commentary. Worth the time.
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @Plantbiased: Amazing research on LDL uptake, thanks for the thread! https://t.co/cDD5Ye8nKj
Amazing research on LDL uptake, thanks for the thread!
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
@KetoAurelius Ahem. (a) LDL-P diameter ≈25 nm, endothelial transit space ≈70 nm. (b) Active receptor-driven process of transcellular transport of LDL-P by SR-B1 https://t.co/kTMDcwiAuZ
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
@Immunoscope @Immune_News @nature @ImmunoMet
SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/i2FhGC0rss https://t.co/0daaNATixT
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
Very interesting work on LOL and atherosclerosis. Wouldn't it be lovely if combined with lipidomics analysis?
An SR-B1 - DOCK4 mechanism for LDL transcytosis across endothelial cells in atherosclerosis. Active transport! https://t.co/AYn2LIJiFG
Excellent paper in @nature on LDL transcytosis via SR-B1 and DOCK4 in endothelial cells to promote #atherosclerosis: https://t.co/oynzDxF6yj
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @NatRevCardiol: SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/C3cjjioSkH
RT @gerdosi: @Eva3034385615 @twitevit @IMWHorvitz @DiscoStew66 SR-B1 is a key transporter the function of which is closely intertwined with…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
@Eva3034385615 @twitevit @IMWHorvitz @DiscoStew66 SR-B1 is a key transporter the function of which is closely intertwined with HDL particle assembly and also with lymph flow — on the other side of the arterial wall. Study: https://t.co/xlb7Vg52hl
RT @fitmslax: Researchers learn how LDL cholesterol enters artery walls to promote #atherosclerosis. @lipiddoc @iamritu @ErinMichos @rahat…
RT @inespinedatorra: You thought #LDL particles passively pass through the #endothelial layer of the #vascular wall to promote #atheroscler…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @skathire: Provocative new findings in mice SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https:/…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
LDLコレステロールが動脈壁に入るのに内皮細胞のスカベンジャー受容体クラスBタイプ1が必要。SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/f9HabDlSNN
RT @inespinedatorra: You thought #LDL particles passively pass through the #endothelial layer of the #vascular wall to promote #atheroscler…
You thought #LDL particles passively pass through the #endothelial layer of the #vascular wall to promote #atherosclerosis This paper says this may not be the case👇👀 https://t.co/mfxXOVEg7y
RT @NatRevCardiol: SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/C3cjjioSkH
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @skathire: Provocative new findings in mice SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https:/…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/C3cjjioSkH
RT @fitmslax: Researchers learn how LDL cholesterol enters artery walls to promote #atherosclerosis. @lipiddoc @iamritu @ErinMichos @rahat…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
Talking about SR-B1 in class today, nice addition to my lecture!
RT @skathire: Provocative new findings in mice SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https:/…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @DanielJDrucker: New roles for endothelial SR-B! #Atherosclerosis https://t.co/7wRvCxxMSm
RT @skathire: Provocative new findings in mice SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https:/…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @endothelialnews: Learning how #LDL #cholesterol enters artery walls leading to #Atherosclerosis. https://t.co/g7wGG5V1vh https://t.co/f…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
RT @POhukainen: 🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in…
🚨 Thread time! 🚨 Fascinating research *letter* (lol, contains more data than many "regular" papers combined!) published in @nature. Looks at the molecular mechanism of how #LDL #cholesterol particles get into arterial walls and cause #atherosclerosis | htt
#Endothelial cell scavenger receptor class B type 1 (SR-B1) mediates #LDL delivery into #arteries with #DOCK4 and contributes to #atherosclerosis in #mice https://t.co/92PBA059yt @nature
RT @fitmslax: Researchers learn how LDL cholesterol enters artery walls to promote #atherosclerosis. @lipiddoc @iamritu @ErinMichos @rahat…
RT @fitmslax: Researchers learn how LDL cholesterol enters artery walls to promote #atherosclerosis. @lipiddoc @iamritu @ErinMichos @rahat…
RT @fitmslax: Researchers learn how LDL cholesterol enters artery walls to promote #atherosclerosis. @lipiddoc @iamritu @ErinMichos @rahat…
RT @skathire: Provocative new findings in mice SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https:/…
Provocative new findings in mice SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/zFi6UwNb7T
RT @fitmslax: Researchers learn how LDL cholesterol enters artery walls to promote #atherosclerosis. @lipiddoc @iamritu @ErinMichos @rahat…
RT @fitmslax: Researchers learn how LDL cholesterol enters artery walls to promote #atherosclerosis. @lipiddoc @iamritu @ErinMichos @rahat…
RT @endothelialnews: Learning how #LDL #cholesterol enters artery walls leading to #Atherosclerosis. https://t.co/g7wGG5V1vh https://t.co/f…
A new target in the battle against #atherosclerosis in @nresearchnews? SR-B1 implicated in LDL penetrance into the endothelial wall. https://t.co/0cI0DOOzNs
Learning how #LDL #cholesterol enters artery walls leading to #Atherosclerosis. https://t.co/g7wGG5V1vh https://t.co/fJQhY1soz8 @Nature @UTSWNews #EndothelialCells https://t.co/xHd2Q0n36h
New roles for endothelial SR-B! #Atherosclerosis https://t.co/7wRvCxxMSm
SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/NcE9bdbF6y
SR-B1 drives endothelial cell LDL transcytosis via DOCK4 to promote atherosclerosis https://t.co/QTfWCgkwYD