Author: "Kauffman, Kevin" - Searchworks@Jio Institute Digital Library Search Results

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161 results on '"Kauffman, Kevin"'

1. Designing for Natural Hazards : Resilience Guides for Builders and Developers

Author: Peavey, John B., Shah, Nay B., Moneke, Chinedu, Kauffman, Kevin, and Thapa, Elina
Published: 2023

2. NAD depletion mediates cytotoxicity in human neurons with autophagy deficiency

Author: Sun, Congxin, Seranova, Elena, Cohen, Malkiel A., Chipara, Miruna, Roberts, Jennie, Astuti, Dewi, Palhegyi, Adina M., Acharjee, Animesh, Sedlackova, Lucia, Kataura, Tetsushi, Otten, Elsje G., Panda, Prashanta K., Lara-Reyna, Samuel, Korsgen, Miriam E., Kauffman, Kevin J., Huerta-Uribe, Alejandro, Zatyka, Malgorzata, Silva, Luiz F.S.E., Torresi, Jorge, Zhang, Shupei, Hughes, Georgina W., Ward, Carl, Kuechler, Erich R., Cartwright, David, Trushin, Sergey, Trushina, Eugenia, Sahay, Gaurav, Buganim, Yosef, Lavery, Gareth G., Gsponer, Joerg, Anderson, Daniel G., Frickel, Eva-Maria, Rosenstock, Tatiana R., Barrett, Timothy, Maddocks, Oliver D.K., Tennant, Daniel A., Wang, Haoyi, Jaenisch, Rudolf, Korolchuk, Viktor I., and Sarkar, Sovan
Published: 2023
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3. Antibodies Targeting Human or Mouse VSIG4 Repolarize Tumor-Associated Macrophages Providing the Potential of Potent and Specific Clinical Anti-Tumor Response Induced across Multiple Cancer Types.

Author: Sazinsky, Stephen, Zafari, Mohammad, Klebanov, Boris, Ritter, Jessica, Nguyen, Phuong A., Phennicie, Ryan T., Wahle, Joe, Kauffman, Kevin J., Razlog, Maja, Manfra, Denise, Feldman, Igor, and Novobrantseva, Tatiana
Subjects: T cells, MACROPHAGES, COMPLEMENT receptors, IMMUNOGLOBULINS, IMMUNE response, CHEMOKINE receptors, CXCR4 receptors, MICE
Abstract: V-set immunoglobulin domain-containing 4 (VSIG4) is a B7 family protein with known roles as a C3 fragment complement receptor involved in pathogen clearance and a negative regulator of T cell activation by an undetermined mechanism. VSIG4 expression is specific for tumor-associated and select tissue-resident macrophages. Increased expression of VSIG4 has been associated with worse survival in multiple cancer indications. Based upon computational analysis of transcript data across thousands of tumor and normal tissue samples, we hypothesized that VSIG4 has an important role in promoting M2-like immune suppressive macrophages and that targeting VSIG4 could relieve VSIG4-mediated macrophage suppression by repolarizing tumor-associated macrophages (TAMs) to an inflammatory phenotype. We have also observed a cancer-specific pattern of VSIG4 isoform distribution, implying a change in the functional regulation in cancer. Through a series of in vitro, in vivo, and ex vivo assays we demonstrate that anti-VSIG4 antibodies repolarize M2 macrophages and induce an immune response culminating in T cell activation. Anti-VSIG4 antibodies induce pro-inflammatory cytokines in M-CSF plus IL-10-driven human monocyte-derived M2c macrophages. Across patient-derived tumor samples from multiple tumor types, anti-VSIG4 treatment resulted in the upregulation of cytokines associated with TAM repolarization and T cell activation and chemokines involved in immune cell recruitment. VSIG4 blockade is also efficacious in a syngeneic mouse model as monotherapy as it enhances efficacy in combination with anti-PD-1, and the effect is dependent on the systemic availability of CD8+ T cells. Thus, VSIG4 represents a promising new target capable of triggering an anti-cancer response via multiple key immune mechanisms. [ABSTRACT FROM AUTHOR]
Published: 2024
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4. Identification of Novel Fibrosis Modifiers by In Vivo siRNA Silencing

Author: Vollmann, Elisabeth H, Cao, Lizhi, Amatucci, Aldo, Reynolds, Taylor, Hamann, Stefan, Dalkilic-Liddle, Isin, Cameron, Thomas O, Hossbach, Markus, Kauffman, Kevin J, Mir, Faryal F, Anderson, Daniel G, Novobrantseva, Tatiana, Koteliansky, Victor, Kisseleva, Tatiana, Brenner, David, Duffield, Jeremy, and Burkly, Linda C
Subjects: Biochemistry and Cell Biology, Biological Sciences, Liver Disease, Digestive Diseases, Biotechnology, Genetics, Chronic Liver Disease and Cirrhosis, 2.1 Biological and endogenous factors, Aetiology, Egr2, LNP, fibrosis, in vivo gene silencing, myofibroblast, siRNA, Clinical Sciences, Biochemistry and cell biology
Abstract: Fibrotic diseases contribute to 45% of deaths in the industrialized world, and therefore a better understanding of the pathophysiological mechanisms underlying tissue fibrosis is sorely needed. We aimed to identify novel modifiers of tissue fibrosis expressed by myofibroblasts and their progenitors in their disease microenvironment through RNA silencing in vivo. We leveraged novel biology, targeting genes upregulated during liver and kidney fibrosis in this cell lineage, and employed small interfering RNA (siRNA)-formulated lipid nanoparticles technology to silence these genes in carbon-tetrachloride-induced liver fibrosis in mice. We identified five genes, Egr2, Atp1a2, Fkbp10, Fstl1, and Has2, which modified fibrogenesis based on their silencing, resulting in reduced Col1a1 mRNA levels and collagen accumulation in the liver. These genes fell into different groups based on the effects of their silencing on a transcriptional mini-array and histological outcomes. Silencing of Egr2 had the broadest effects in vivo and also reduced fibrogenic gene expression in a human fibroblast cell line. Prior to our study, Egr2, Atp1a2, and Fkbp10 had not been functionally validated in fibrosis in vivo. Thus, our results provide a major advance over the existing knowledge of fibrogenic pathways. Our study is the first example of a targeted siRNA assay to identify novel fibrosis modifiers in vivo.
Published: 2017

5. In Vivo RNAi-Mediated eIF3m Knockdown Affects Ribosome Biogenesis and Transcription but Has Limited Impact on mRNA-Specific Translation

Author: Smekalova, Elena M., Gerashchenko, Maxim V., O’Connor, Patrick B.F., Whittaker, Charles A., Kauffman, Kevin J., Fefilova, Anna S., Zatsepin, Timofei S., Bogorad, Roman L., Baranov, Pavel V., Langer, Robert, Gladyshev, Vadim N., Anderson, Daniel G., and Koteliansky, Victor
Published: 2020
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6. 1205 Surmounting conventional cell therapy limitationsvia in situCAR therapy using oRNA™ lipid nanoparticles

Author: Becker, Amy, primary, Wesselhoeft, Alex, additional, Horhata, Allen, additional, Emmanuel, Akinola, additional, Kauffman, Kevin, additional, Kundu, Sharmistha, additional, Lee, Thomas, additional, Soto, David, additional, Thakkar, Akshi, additional, Elangovan, Ramya, additional, Chinn, Magnolia, additional, Wright-Michaud, Renee, additional, Richardson, Meghan, additional, Wright, Chris, additional, Ott, Kristen, additional, Dutta-Simmons, Jui, additional, Schindler, Rena, additional, Stevens, Trent, additional, Wiryawan, Yessica, additional, Wong, Ashley, additional, Langer, Ian, additional, Vungutur, Rahul, additional, Ciullo, Corey, additional, Yang, Junghoon, additional, Haskell, Paisley, additional, Chau, Nelson, additional, Barnes, Thomas, additional, and Mabry, Robert, additional
Published: 2023
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7. Supplementary Figure 1 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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8. FIGURE 3 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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9. FIGURE 2 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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10. Supplementary Table 3 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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11. FIGURE 5 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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12. Supplementary Figure 9 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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13. FIGURE 6 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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14. Supplementary Table 1 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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15. Supplementary Figure 2 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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16. Supplementary Figure 4 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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17. Supplementary Figure 6 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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18. Supplementary Figure 5 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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19. Supplementary Figure 7 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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20. Supplementary Figure 3 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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21. Supplementary Table 2 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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22. Supplementary Figure 8 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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23. FIGURE 4 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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24. FIGURE 1 from PSGL-1 Blockade Induces Classical Activation of Human Tumor-associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, primary, Nowakowska, Dominika, primary, Zafari, Mohammad, primary, Nguyen, Phuong A., primary, Phennicie, Ryan, primary, Vollmann, Elisabeth H., primary, O'Nuallain, Brian, primary, Basinski, Sara, primary, Komoroski, Veronica, primary, Rooney, Kate, primary, Culyba, Elizabeth K., primary, Wahle, Joseph, primary, Ries, Carola, primary, Brehm, Michael, primary, Sazinsky, Steve, primary, Feldman, Igor, primary, and Novobrantseva, Tatiana I., primary
Published: 2023
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25. PSGL-1 Blockade Induces Classical Activation of Human Tumor-Associated Macrophages

Author: Kauffman, Kevin, primary, Manfra, Denise, additional, Nowakowska, Dominika, additional, Zafari, Mohammad, additional, Nguyen, Phuong A, additional, Phennicie, Ryan, additional, Vollmann, Elisabeth H, additional, O'Nuallain, Brian, additional, Basinski, Sara, additional, Komoroski, Veronica, additional, Rooney, Kate, additional, Culyba, Elizabeth K, additional, Wahle, Joseph, additional, Ries, Carola, additional, Brehm, Michael, additional, Sazinsky, Stephen, additional, Feldman, Igor, additional, and Novobrantseva, Tatiana I., additional
Published: 2023
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26. Barcoded nanoparticles for high throughput in vivo discovery of targeted therapeutics

Author: Dahlman, James E., Kauffman, Kevin J., Xing, Yiping, Shaw, Taylor E., Mir, Faryal F., Dlott, Chloe C., Langer, Robert, Anderson, Daniel G., and Wang, Eric T.
Published: 2017

27. Efficacy and immunogenicity of unmodified and pseudouridine-modified mRNA delivered systemically with lipid nanoparticles in vivo

Author: Kauffman, Kevin J., Mir, Faryal F., Jhunjhunwala, Siddharth, Kaczmarek, James C., Hurtado, Juan E., Yang, Jung H., Webber, Matthew J., Kowalski, Piotr S., Heartlein, Michael W., DeRosa, Frank, and Anderson, Daniel G.
Published: 2016
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28. Materials for non-viral intracellular delivery of messenger RNA therapeutics

Author: Kauffman, Kevin J., Webber, Matthew J., and Anderson, Daniel G.
Published: 2016
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29. Cancer Nanotherapeutics in Clinical Trials

Author: Lytton-Jean, Abigail K. R., Kauffman, Kevin J., Kaczmarek, James C., Langer, Robert, Rosen, Steven T., Series editor, Mirkin, Chad A., editor, Meade, Thomas J., editor, Petrosko, Sarah Hurst, editor, and Stegh, Alexander H., editor
Published: 2015
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30. 1222 In situCAR therapy using oRNA™ lipid nanoparticles regresses tumors in mice

Author: Mabry, Robert, primary, Becker, Amy, additional, Wesselhoeft, Alex, additional, Horhata, Allen, additional, Emmanuel, Akinola, additional, Lee, Thomas, additional, Soto, David, additional, Thakkar, Akshi, additional, Elangovan, Ramya, additional, Chinn, Magnolia, additional, Kundu, Sharmistha, additional, Kauffman, Kevin, additional, Ott, Kristen, additional, Stevens, Trent, additional, Wiryawan, Yessica, additional, Wong, Ashley, additional, Langer, Ian, additional, Vungutur, Rahul, additional, Ciullo, Corey, additional, Nyoni, Zifiso, additional, Chau, Nelson, additional, and Barnes, Thomas, additional
Published: 2022
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31. Uremic Toxin Indoxyl Sulfate Promotes Proinflammatory Macrophage Activation Via the Interplay of OATP2B1 and Dll4-Notch Signaling: Potential Mechanism for Accelerated Atherogenesis in Chronic Kidney Disease

Author: Nakano, Toshiaki, Katsuki, Shunsuke, Chen, Mingxian, Decano, Julius L., Halu, Arda, Lee, Lang Ho, Pestana, Diego V. S., Kum, Angelo S. T., Kuromoto, Rodrigo K., Golden, Whitney S., Boff, Mario S., Guimaraes, Gabriel C., Higashi, Hideyuki, Kauffman, Kevin J., Maejima, Takashi, Suzuki, Takehiro, Iwata, Hiroshi, Barabási, Albert-László, Aster, Jon C., Anderson, Daniel G., Sharma, Amitabh, Singh, Sasha A., Aikawa, Elena, and Aikawa, Masanori
Published: 2019
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32. NAD Depletion Mediates Cytotoxicity in Human Neurons With Autophagy Deficiency

Author: Sun, Congxin, primary, Seranova, Elena, additional, Cohen, Malkiel A., additional, Chipara, Miruna, additional, Roberts, Jennie, additional, Palhegyi, Adina M., additional, Acharjee, Animesh, additional, Sedlackova, Lucia, additional, Kataura, Tetsushi, additional, Otten, Elsje G., additional, Panda, Prashanta K., additional, Kauffman, Kevin J., additional, Huerta-Uribe, Alejandro, additional, Zatyka, Malgorzata, additional, Silva, Luiz F.S.E., additional, Torresi, Jorge, additional, Zhang, Shupei, additional, Ward, Carl, additional, Kuechler, Erich R., additional, Cartwright, David, additional, Trushin, Sergey, additional, Trushina, Eugenia, additional, Sahay, Gaurav, additional, Buganim, Yosef, additional, Lavery, Gareth G., additional, Gsponer, Joerg, additional, Anderson, Daniel G., additional, Rosenstock, Tatiana R., additional, Barrett, Timothy, additional, Maddocks, Oliver D.K., additional, Tennant, Daniel A., additional, Wang, Haoyi, additional, Jaenisch, Rudolf, additional, Korolchuk, Viktor I., additional, and Sarkar, Sovan, additional
Published: 2022
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33. Abstract P107: PSGL-1 blocking antibodies repolarize tumor associated macrophages, reduce suppressive myeloid populations and induce inflammation in the tumor microenvironment, leading to suppression of tumor growth

Author: Nguyen, Ani, primary, Ritter, Jessica, additional, Zafari, Mohammad, additional, Manfra, Denise, additional, Komoroski, Veronica, additional, O'Nuallain, Brian, additional, Phennicie, Ryan, additional, Kauffman, Kevin, additional, Nowakowska, Dominika, additional, Wahle, Joe, additional, Sazinsky, Steve, additional, Brehm, Michael, additional, Feldman, Igor, additional, and Novobrantseva, Tatiana, additional
Published: 2021
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34. 877 PSGL-1 blocking antibodies repolarize tumor associated macrophages, reduce suppressive myeloid populations and induce inflammation in the tumor microenvironment, leading to suppression of tumor growth

Author: Nguyen, Phuong, primary, Ritter, Jessica, additional, Zafari, Mohammad, additional, Manfra, Denise, additional, Komoroski, Veronica, additional, O’Nuallain, Brian, additional, Phennicie, Ryan, additional, Kauffman, Kevin, additional, Nowakowska, Dominika, additional, Wahle, Joe, additional, Sazinsky, Steve, additional, Brehm, Michael, additional, Feldman, Igor, additional, and Novobrantseva, Tatiana, additional
Published: 2021
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35. Autophagy promotes cell survival by maintaining NAD(H) levels

Author: Sedlackova, Lucia, primary, Kataura, Tetsushi, additional, Seranova, Elena, additional, Sun, Congxin, additional, Otten, Elsje, additional, Cohen, Malkiel, additional, Chipara, Miruna, additional, Palhegyi, Adina, additional, Shapira, David, additional, Scialo, Filippo, additional, Stefanatos, Rhoda, additional, Ishikawa, Kei-ichi, additional, Kenneth, Niall, additional, Zhang, Tong, additional, Panda, Prashanta, additional, Zatyka, Malgorzata, additional, Silva, Luiz, additional, Torresi, Jorge, additional, Kauffman, Kevin, additional, Zhang, Shupei, additional, Maetzel, Dorothea, additional, Varga, Thiago, additional, Ward, Carl, additional, Cartwright, David, additional, Lavery, Gareth, additional, Sahay, Gaurav, additional, Buganim, Yosef, additional, Anderson, Daniel, additional, Acharjee, Animesh, additional, Bascom, Charles, additional, Tasseff, Ryan, additional, Isfort, Robert, additional, Oblong, John, additional, Gsponer, Joerg, additional, Miwa, Satomi, additional, Lazarou, Michael, additional, Papamichos-Chronakis, Manolis, additional, Wang, Haoyi, additional, Imoto, Masaya, additional, Saiki, Shinji, additional, Maddocks, Oliver, additional, Sanz, Alberto, additional, Rosenstock, Tatiana, additional, Jaenisch, Rudolf, additional, Korolchuk, Viktor, additional, and Sarkar, Sovan, additional
Published: 2021
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36. Hexachromatic bioinspired camera for image-guided cancer surgery

Author: Blair, Steven, primary, Garcia, Missael, additional, Davis, Tyler, additional, Zhu, Zhongmin, additional, Liang, Zuodong, additional, Konopka, Christian, additional, Kauffman, Kevin, additional, Colanceski, Risto, additional, Ferati, Imran, additional, Kondov, Borislav, additional, Stojanoski, Sinisa, additional, Todorovska, Magdalena Bogdanovska, additional, Dimitrovska, Natasha Toleska, additional, Jakupi, Nexhat, additional, Miladinova, Daniela, additional, Petrusevska, Gordana, additional, Kondov, Goran, additional, Dobrucki, Wawrzyniec Lawrence, additional, Nie, Shuming, additional, and Gruev, Viktor, additional
Published: 2021
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37. I Knew That!

Author: Rhodes, Brandon, Black, Ryder, Kauffman, Kevin, Walker, Bernard T., and Troyer, Albert C.
Published: 2024

38. 862 Targeting PSGL-1, a novel macrophage checkpoint, repolarizes suppressive macrophages, induces an inflammatory tumor microenvironment, and suppresses tumor growth

Author: Nguyen, Phuong, primary, Phennicie, Ryan, additional, Kauffman, Kevin, additional, Nowakowska, Dominika, additional, Zafari, Mohammad, additional, Komoroski, Veronica, additional, Sazinsky, Steve, additional, Wahle, Joe, additional, Manfra, Denise, additional, Vaidya, Shantashri, additional, Brehm, Michael, additional, Feldman, Igor, additional, and Novobrantseva, Tatiana, additional
Published: 2020
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39. Optimization of rapamycin-loaded acetalated dextran microparticles for immunosuppression

Author: Kauffman, Kevin J., Kanthamneni, Naveen, Meenach, Samantha A., Pierson, Benjamin C., Bachelder, Eric M., and Ainslie, Kristy M.
Published: 2012
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40. PSGL-1 is a novel macrophage checkpoint in immuno-oncology.

Author: Nowakowska, Dominika, primary, Phennicie, Ryan, additional, Kauffman, Kevin, additional, Zafari, Mohammad, additional, Rooney, Kathryn, additional, O’Nuallain, Brian, additional, Sazinsky, Steve, additional, Wahle, Joe, additional, Feldman, Igor, additional, and Novobrantseva, Tatiana, additional
Published: 2020
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41. Endothelial TGF-β signalling drives vascular inflammation and atherosclerosis

Author: Chen, Pei-Yu, primary, Qin, Lingfeng, additional, Li, Guangxin, additional, Wang, Zheng, additional, Dahlman, James E., additional, Malagon-Lopez, Jose, additional, Gujja, Sharvari, additional, Cilfone, Nicholas A., additional, Kauffman, Kevin J., additional, Sun, Lele, additional, Sun, Hongye, additional, Zhang, Xinbo, additional, Aryal, Binod, additional, Canfran-Duque, Alberto, additional, Liu, Rebecca, additional, Kusters, Pascal, additional, Sehgal, Alfica, additional, Jiao, Yang, additional, Anderson, Daniel G., additional, Gulcher, Jeffrey, additional, Fernandez-Hernando, Carlos, additional, Lutgens, Esther, additional, Schwartz, Martin A., additional, Pober, Jordan S., additional, Chittenden, Thomas W., additional, Tellides, George, additional, and Simons, Michael, additional
Published: 2019
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42. SIP Shear Walls: Cyclic Performance of High-Aspect-Ratio Segments and Perforated Walls

Author: Kochkin, Vladimir, primary, Rammer, Douglas R., additional, Kauffman, Kevin, additional, Wiliamson, Thomas, additional, and Ross, Robert J., additional
Published: 2015
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43. Gene Delivery: Inhaled Nanoformulated mRNA Polyplexes for Protein Production in Lung Epithelium (Adv. Mater. 8/2019)

Author: Patel, Asha Kumari, primary, Kaczmarek, James C., additional, Bose, Suman, additional, Kauffman, Kevin J., additional, Mir, Faryal, additional, Heartlein, Michael W., additional, DeRosa, Frank, additional, Langer, Robert, additional, and Anderson, Daniel G., additional
Published: 2019
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44. Inhaled Nanoformulated mRNA Polyplexes for Protein Production in Lung Epithelium

Author: Patel, Asha Kumari, primary, Kaczmarek, James C., additional, Bose, Suman, additional, Kauffman, Kevin J., additional, Mir, Faryal, additional, Heartlein, Michael W., additional, DeRosa, Frank, additional, Langer, Robert, additional, and Anderson, Daniel G., additional
Published: 2019
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45. Customizable Lipid Nanoparticle Materials for the Delivery of siRNAs and mRNAs

Author: Fenton, Owen S., primary, Kauffman, Kevin J., additional, McClellan, Rebecca L., additional, Kaczmarek, James C., additional, Zeng, Manhao D., additional, Andresen, Jason L., additional, Rhym, Luke H., additional, Heartlein, Michael W., additional, DeRosa, Frank, additional, and Anderson, Daniel G., additional
Published: 2018
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46. Optimization of a Degradable Polymer–Lipid Nanoparticle for Potent Systemic Delivery of mRNA to the Lung Endothelium and Immune Cells

Author: Kaczmarek, James C., primary, Kauffman, Kevin J., additional, Fenton, Owen S., additional, Sadtler, Kaitlyn, additional, Patel, Asha K., additional, Heartlein, Michael W., additional, DeRosa, Frank, additional, and Anderson, Daniel G., additional
Published: 2018
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47. A 1280 by 720 by 3, 250 mW, 24 fps Hexachromatic Imager for Near-Infrared Fluorescence Image-Guided Surgery

Author: Garcia, Missael, primary, Kauffman, Kevin, additional, Davis, Tyler, additional, Marinov, Radoslav, additional, and Gruev, Viktor, additional
Published: 2018
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48. Live Demonstration: A 1280 by 720 by 3, 250 mW, 24 fps Hexachromatic Imager for Near-Infrared Fluorescence Image-Guided Surgery

Author: Garcia, Missael, primary, Kauffman, Kevin, additional, Davis, Tyler, additional, Marinov, Radoslav, additional, and Gruev, Viktor, additional
Published: 2018
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49. Hexachromatic imager for near-infrared fluorescence image-guided surgery (Conference Presentation)

Author: Garcia, Missael, primary, Gruev, Viktor, additional, Marinov, Radoslav, additional, Kauffman, Kevin, additional, and Davis, Tyler, additional
Published: 2018
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50. Rapid, Single-Cell Analysis and Discovery of Vectored mRNA Transfection In Vivo with a loxP-Flanked tdTomato Reporter Mouse

Author: Kauffman, Kevin J., primary, Oberli, Matthias A., additional, Dorkin, J. Robert, additional, Hurtado, Juan E., additional, Kaczmarek, James C., additional, Bhadani, Shivani, additional, Wyckoff, Jeff, additional, Langer, Robert, additional, Jaklenec, Ana, additional, and Anderson, Daniel G., additional
Published: 2018
Full Text: View/download PDF

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