Selected Publications

• Hua R, Wei J, Torres M, He Y, Li Y, Sun X, Wang L, Inoki K, Yoshida S*. (2023).
  Identification of circular dorsal ruffles as signal platforms for the AKT pathway in glomerular podocytes.
  Journal of Cellular Physiology. 2023 Mar 16. doi: 10.1002/jcp.30996.
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• Sun X, Liu Y, Zhou S, Wang L, Wei J, Hua R, Shen Z*Yoshida S*. (2022).
  Circular dorsal ruffles disturb the growth factor-induced PI3K-AKT pathway in hepatocellular carcinoma Hep3B cells.
  Cell Communication and Signaling. 2022 July 7. doi: 10.1186/s12964-022-00911-6.
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• Liang R, Liu N, Cao J, Liu T, Sun P, Cai X, Zhang L, Liu Y, Zou J, Wang L, Ding X, Zhang B, Shen Z,Yoshida S*, Dou J*, Wang S*. (2022).
  HIF-1α/FOXO1 axis regulated autophagy is protective for β cell survival under hypoxia in human islets.
  Biochim Biophys Acta Mol Basis Dis. 2022 Feb 3:166356. doi: 10.1016/j.bbadis.2022.166356.
  *Co-correponding
  
  
• Sun X, Zheng W, Hua R, Liu Y, Wang L, Kim Y, Liu X, Mimuro H, Shen Z*, Li L*, Yoshida S*. (2021).
  Macropinocytosis and SARS CoV-2 Cell Entry.
  Blood and Genomics. 2021, 5(1): 1−12 (review)
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  *Co-correponding
  
  
• Yoshida S*, Wei X, Zhang G, L.O’Connor C, Torres M, Zhou Z, Lin L, Menon R, Xu X, Zheng W, Xiong Y, Otto E, Tang C.A, Hua R, Verma R, Mori H, Zhang Y, Hu C.A, Liu M, Garg P, B. Hodgin J, Sun S, Bitzer M, Qi L*. (2021).
  Endoplasmic reticulum-associated degradation is required for nephrin maturation and kidney glomerular filtration function.
  The Journal of Clinical Investigation. 131 (7):e143988
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  *Co-corresponding
  
  
• Swanson JA* and Yoshida S*. (2019).
  Macropinosomes as units of signal transduction.
  Philosophical Transactions of the Royal Society B. 374: 20180157 (review)
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• Yoshida S*, Pacitto R, Sesi C, Kotula L, and Swanson J*. (2018).
  Dorsal Ruffles Enhance Activation of Akt by Growth Factors.
  Journal of Cell Science. 131: jcs220517 doi: 10.1242/jcs.220517
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  *Co-corresponding Author Highlighted in “First Person” (J Cell Sci 2018 131: jcs226373)
  Highlighted in “Research Highlight” (J Cell Sci 2018 131: e2201)
  
  
• Yoshida S, Pacitto R, Inoki K and Swanson J. (2018).
  Macropinocytosis, mTORC1 and Cellular Growth Control.
  Cellular and Molecular Life Sciences.75: 1227-1239 doi: 10.1007/s00018-017-2710-7
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• Pacitto R, Gaeta I, Swanson JA and Yoshida S*. (2017).
  CXCL12-induced macropinocytosis modulates two distinct pathways to activate mTORC1 in macrophages.
  Journal of Leukocyte Biology.101: 683-692 doi: 10.1189/jlb.2A0316-141RR
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  *Corresponding Author Highlighted on the cover
  
  
• Swanson JA and Yoshida S. (2016).
  Macropinocytosis.
  Encyclopedia of Cell Biology. (R.A. Bradshaw and P. Stahl, Eds.). 2: 758-765. (Book chapter)
  
  
• Yoshida S, Pacitto R, Yao Y, Inoki K and Swanson JA. (2015).
  Growth Factor Signaling to mTORC1 by Amino Acid-laden Macropinosomes.
  Journal of Cell Biology.211: 159-172. doi: 10.1083/jcb.201504097
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  Highlighted in “Research Round-up” (J Cell Biol. 2015. 211: 1)
  
  
• Yoshida S, Gaeta I, Pacitto R, Krienke L, Alge O, Gregorka B and Swanson JA. (2015).
  Differential signaling During Macropinocytosis in Response to M-CAF and PMA in Macrophages.
  Frontiers in Physiology. 6:8. doi: 10.3389/fphys.2015.00008.
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• Huber TB, Edelstein CL, Hartleben B, Inoki K, Jiang M, Koya D, Kume S, Lieberthal W, Pallet N, Quiroga A, Ravichandran K, Susztak K, Yoshida S and Dong Z. (2012).
  Emerging role of autophagy in kidney function, diseases and aging.
  Autophagy.8: 1009-1031. (Review)
  
  
• Yoshida S, Hong S, Suzuki T, Nada S, Mannan AM, Wang J, Okada M, Guan KL, and Inoki K. (2011).
  Redox regulates mTORC1 activity by modulating the TSC1/TSC2-Rheb pathway.
  Journal of Biological Chemistry.286:32651-32660.
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• Yoshida S, Hoppe AD, Araki N, and Swanson JA. (2009).
  Sequential signaling in plasma-membrane domains during macropinosome formation in macrophages.
  Journal of Cell Science.122:3250-3261. doi: 10.1242/jcs.053207.
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• Yoshida S, Handa Y, Suzuki T, Ogawa M, Suzuki M, Tamai A, Abe A, Katayama E, and Sasakawa C. (2006).
  Microtubule-severing activity of Shigella is pivotal for intercellular spreading.
  Science.314:985-989.
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• Yoshida S and Sasakawa C. (2003).
  Exploiting host microtubule dynamics: A new aspect of bacterial invasion.
  Trends in Microbiology.11:139-143. (Review)
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• Yoshida S, Katayama E, Kuwae A, Mimuro H, Suzuki T, and Sasakawa C. (2002).
  Shigella delivers an effector protein to trigger host microtubule dynamic-instability, which promotes Rac1 activity and efficient bacterial internalization.
  EMBO Journal.21:2923-2935.
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