Your search keyword '"Swiatecka-Urban A"' showing total 299 results

1. A revised nomenclature for the lemur family of protein kinases

Author

Mórotz, Gábor M., Bradbury, Neil A., Caluseriu, Oana, Hisanaga, Shin-ichi, Miller, Christopher C. J., Swiatecka-Urban, Agnieszka, Lenz, Heinz-Josef, Moss, Stephen J., and Giamas, Georgios

Published

2024

2. A revised nomenclature for the lemur family of protein kinases

Author

Gábor M. Mórotz, Neil A. Bradbury, Oana Caluseriu, Shin-ichi Hisanaga, Christopher C. J. Miller, Agnieszka Swiatecka-Urban, Heinz-Josef Lenz, Stephen J. Moss, and Georgios Giamas

Subjects

Biology (General), QH301-705.5

Abstract

Abstract The lemur family of protein kinases has gained much interest in recent years as they are involved in a variety of cellular processes including regulation of axonal transport and endosomal trafficking, modulation of synaptic functions, memory and learning, and they are centrally placed in several intracellular signalling pathways. Numerous studies have also implicated role of the lemur kinases in the development and progression of a wide range of cancers, cystic fibrosis, and neurodegenerative diseases. However, parallel discoveries and inaccurate prediction of their kinase activity have resulted in a confusing and misleading nomenclature of these proteins. Herein, a group of international scientists with expertise in lemur family of protein kinases set forth a novel nomenclature to rectify this problem and ultimately help the scientific community by providing consistent information about these molecules.

Published

2024

3. Association of COVID-19 Versus COVID-19 Vaccination With Kidney Function and Disease Activity in Primary Glomerular Disease: A Report of the Cure Glomerulonephropathy Study

Author

Ahn, Wooin, Appel, Gerald, Appelbaum, Paul, Babayev, Revekka, Chan, Brenda, D’Agati, Vivette Denise, Dogra, Samitri, Fernandez, Hilda, Gharavi, Ali, Hines, William, Husain, Syed Ali, Jain, Namrata, Kiryluk, Krzysztof, Lin, Fangming, Marasa, Maddalena, Markowitz, Glen, Rasouly, Hila Milo, Mohan, Sumit, Mongera, Nicola, Nestor, Jordan, Nickolas, Thomas, Radhakrishnan, Jai, Rao, Maya, Sanna-Cherchi, Simone, Shirazian, Shayan, Stokes, Michael Barry, Uy, Natalie, Valeri, Anthony, Vena, Natalie, Foroncewicz, Bartosz, Moszczuk, Barbara, Mucha, Krzysztof, Perkowska-Ptasińska, Agnieszka, Ghiggeri, Gian Marco, Lugani, Francesca, Ambruzs, Josephine, Liapis, Helen, Baracco, Rossana, Jain, Amrish, Isa Ashoor, Aviles, Diego, Srivastava, Tarak, Ahn, Sun-Young, Devarajan, Prasad, Erkan, Elif, Claes, Donna, Stone, Hillarey, Mason, Sherene, Gbadegesin, Rasheed, Gomez-Mendez, Liliana, Yin, Hong (Julie), Cai, Yi, Jens, Goebel, Steinke, Julia, Weaver, Donald, Lane, Jerome, Cramer, Carl, Pan, Cindy, Paloian, Neil, Sreedharan, Rajasree, Selewski, David, Twombley, Katherine, Bowers, Corinna, Dreher, Mary, Kallash, Mahmoud, Mahan, John, Sharpe, Samantha, Al-Uzri, Amira, Iragorri, Sandra, Belsha, Craig, Alge, Joseph, Braun, Michael, Gomez, A.C., Wenderfer, Scott, Vasylyeva, Tetyana, Feig, Daniel, Fuentes, Gabriel Cara, Hannah, Melisha, Nester, Carla, Chishti, Aftab, Klein, Jon, Katsoufis, Chryso, Seeherunvong, Wacharee, Wong, Craig, Mathews, Nisha, Barcia, John, Swiatecka-Urban, Agnes, Bartosh, Sharon, Hunley, Tracy, Dharnidharka, Vikas, Gaut, Joseph, Laurin, Louis-Philippe, Royal, Virginie, Achanti, Anand, Budisavljevic, Milos, Self, Sally, Ghossein, Cybele, Peleg, Yonatan, Wadhwani, Shikha, Almaani, Salem, Ayoub, Isabelle, Nadasdy, Tibor, Parikh, Samir, Rovin, Brad, Chang, Anthony, Fatima, Huma, Julian, Bruce, Novak, Jan, Renfrow, Matthew, Rizk, Dana, Chen, Dhruti, Derebail, Vimal, Falk, Ronald, Gibson, Keisha, Hogan, Susan, Jain, Koyal, Jennette, J. Charles, Mottl, Amy, Poulton, Caroline, Saha, Manish Kanti, Fogo, Agnes, Sanghani, Neil, Kidd, Jason, Muthusamy, Selvaraj, Hou, Jean, Lemley, Kevin, Mika, Warren, Russo, Pierre, Denburg, Michelle, Kogon, Amy, Meyers, Kevin, Pradhan, Madhura, O’Toole, John, Sedor, John, Sethna, Christine, Vento, Suzanne, Atta, Mohamed, Bagnasco, Serena, Neu, Alicia, Sperati, John, Adler, Sharon, Dai, Tiane, Dukkipati, Ram, Fervenza, Fernando, Sethi, Sanjeev, Kaskel, Frederick, Brathwaite, Kaye, Reidy, Kimberly, Weisstuch, Joseph, Wu, Ming, Zhdanova, Olga, Heymann, Jurgen, Kopp, Jeffrey, Waldman, Meryl, Winkler, Cheryl, Krissberg, Jill, Lafayette, Richard, Fahmeedah, Kamal, Talley, Elizabeth, Hladunewich, Michelle, Parekh, Rulan, Avila-Casado, Carmen, Cattran, Daniel, Heather, Reich, Boll, Philip, Drexler, Yelena, Fornoni, Alessia, Blazius, Brooke, Hodgin, Jeffrey, Oliverio, Andrea, Hogan, Jon, Palmer, Matthew, Abromovitz, Blaise, Mortiz, Michael, Alpers, Charles, Jefferson, J. Ashley, Brown, Elizabeth, Sambandam, Kamal, Roehm, Bethany, Graff, John, Gillespie, Brenda, Kretzler, Matthias, Nast, Cynthia, Barisoni, Laura, Guay-Woodford, Lisa M., Wang, Chia-shi, Glenn, Dorey A., Helmuth, Margaret, Smith, Abigail R., Bomback, Andrew S., Canetta, Pietro A., Coppock, Gaia M., Khalid, Myda, Tuttle, Katherine R., Bou-Matar, Raed, Greenbaum, Larry A., Robinson, Bruce M., Holzman, Lawrence B., Smoyer, William E., Rheault, Michelle N., Gipson, Debbie, and Mariani, Laura H.

Published

2024

4. The Significance of Hematuria in Podocytopathies

Author

Marchel, Dorota, Trachtman, Howard, Larkina, Maria, Helmuth, Margaret, Lai Yee, Jennifer Y., Fermin, Damian, Bomback, Andrew S., Canetta, Pietro A., Gipson, Debbie S., Mottl, Amy K., Parekh, Rulan S., Saha, Manish K., Sampson, Matthew G., Lafayette, Richard A., Mariani, Laura H., Massengill, S., Lo, L., Dell, K., Sedor, J., Martin, B., Lemley, K., Fajardo, C., Sharma, S., Srivastava, T., Markus, K., Sethna, C., Vento, S., Canetta, P., Pradhan, A., Gbadegesin, R., Olabisi, O., Smith, M., Greenbaum, L., Wang, C.S., Yun, E., Adler, S., LaPage, J., Amarah, A., Itteera, M., Atkinson, M., Williams, M., Fervenza, F., Hogan, M., Lieske, J., Selewski, D., Alston, C., Kaskel, F., Ross, M., Flynn, P., Kopp, J., Malaga-Dieguez, L., Zhdanova, O., Pehrson, L.J., Almaani, S., Roberts, L., Lafayette, R., Dave, S., Lee, I., Pfeffer, Z., Shah, S., Deslandes, A., Reich, H., Hladunewich, M., Ling, P., Romano, M., Brakeman, P, Podoll, A., Rogers, N., McCarthy, E., Landry, E., Fornoni, A., Bidot, C., Kretzler, M., Gipson, D., Williams, A., Stelzer, M., Nachman, P., Rheault, M., Rao, V., Derebail, V., Gibson, K., Froment, A., Ochoa-Toro, F., Holzman, L., Meyers, K., Kallem, K., Swenson, A., Sharma, K., Sambandam, K., Robles, E., Turk, M., Jefferson, A., Hingorani, S., Tuttle, K., Manahan, L., Pao, E., Kuykendall K, K., Lin, J.J., Cody, E., Kretzler, M., Barisoni, L., Gadegbeku, C., Gillespie, B., Gipson, D., Holzman, L., Mariani, L., Sampson, M.G., Sedor, J., Smith, A., Zee, J., Alter, G., Desmond, H., Eddy, S., Fermin, D., Ju, W., Larkina, M., Li, S., Lienczewski, C.C., Mainieri, T., Scherr, R., Troost, J., Williams, A., Wang, Y., Avila-Casado, Carmen, Bagnasco, Serena, Cassol, Clarissa, Bu, Lihong, Caltharp, Shelley, Demeke, Dawit, Gillespie, Brenda, Hassler, Jared, Herlitz, Leal, Hewitt, Stephen, Hodgin, Jeff, Holanda, Danni, Kambham, Neeraja, Lemley, Kevin, Mariani, Laura, Messias, Nidia, Mikhailov, Alexei, Najafian, Behzad, Palmer, Matthew, Rosenberg, Avi, Royal, Virginie, Stokes, Barry, Thomas, David, Yamashita, Michifumi, Yin, Hong, Zee, Jarcy, Zuo, Yiqin, Barisoni, Laura, Nast, Cynthia, Ahn, Wooin, Appel, Gerald, Appelbaum, Paul, Babayev, Revekka, Bomback, Andrew, Canetta, Pietro, Chan, Brenda, DʼAgati, Vivette Denise, Dogra, Samitri, Fernandez, Hilda, Gharavi, Ali, Hines, William, Husain, Syed Ali, Jain, Namrata, Kiryluk, Krzysztof, Lin, Fangming, Marasa, Maddalena, Markowitz, Glen, Rasouly, Hila Milo, Mohan, Sumit, Mongera, Nicola, Nestor, Jordan, Nickolas, Thomas, Radhakrishnan, Jai, Rao, Maya, Sanna-Cherchi, Simone, Shirazian, Shayan, Stokes, Michael Barry, Uy, Natalie, Valeri, Anthony, Vena, Natalie, Foroncewicz, Bartosz, Moszczuk, Barbara, Mucha, Krzysztof, Perkowska-Ptasińska, Agnieszka, Ghiggeri, Gian Marco, Lugani, Francesca, Ambruzs, Josephine, Liapis, Helen, Baracco, Rossana, Jain, Amrish, Ashoor, Isa, Aviles, Diego, Srivastava, Tarak, Ahn, Sun-Young, Devarajan, Prasad, Erkan, Elif, Claes, Donna, Stone, Hillarey, Mason, Sherene, Gbadegesin, Rasheed, Gomez-Mendez, Liliana, Greenbaum, Larry, Wang, Chia-shi, Yin, Hong (Julie), Cai, Yi, Jens, Goebel, Steinke, Julia, Weaver, Donald, Lane, Jerome, Cramer, Carl, Pan, Cindy, Paloian, Neil, Sreedharan, Rajasree, Selewski, David, Twombley, Katherine, Bowers, Corinna, Dreher, Mary, Kallash, Mahmoud, Mahan, John, Sharpe, Samantha, Smoyer, William, Al-Uzri, Amira, Iragorri, Sandra, Khalid, Myda, Belsha, Craig, Alge, Joseph, Braun, Michael, Gomez, AC, Wenderfer, Scott, Vasylyeva, Tetyana, Feig, Daniel, Fuentes, Gabriel Cara, Hannah, Melisha, Nester, Carla, Chishti, Aftab, Klein, Jon, Katsoufis, Chryso, Seeherunvong, Wacharee, Rheault, Michelle, Wong, Craig, Mathews, Nisha, Barcia, John, Swiatecka-Urban, Agnes, Bartosh, Sharon, Hunley, Tracy, Dharnidharka, Vikas, Gaut, Joseph, Laurin, Louis-Philippe, Royal, Virginie, Achanti, Anand, Budisavljevic, Milos, Self, Sally, Ghossein, Cybele, Peleg, Yonatan, Wadhwani, Shikha, Almaani, Salem, Ayoub, Isabelle, Nadasdy, Tibor, Samir, Parikh, Rovin, Brad, Chang, Anthony, Fatima, Huma, Julian, Bruce, Novak, Jan, Renfrow, Matthew, Rizk, Dana, Chen, Dhruti, Derebail, Vimal, Falk, Ronald, Gibson, Keisha, Glenn, Dorey, Hogan, Susan, Jain, Koyal, Jennette, J. Charles, Mottl, Amy, Poulton, Caroline, Saha, Manish Kanti, Fogo, Agnes, Sanghani, Neil, Kidd, Jason, Muthusamy, Selvaraj, Schelling, Jeffrey, Hou, Jean, Lemley, Kevin, Mika, Warren, Russo, Pierre, Denburg, Michelle, Kogon, Amy, Meyers, Kevin, Pradhan, Madhura, Matar, Raed Bou, OʼToole, John, Sedor, John, Sethna, Christine, Vento, Suzanne, Atta, Mohamed, Bagnasco, Serena, Neu, Alicia, Sperati, John, Adler, Sharon, Dai, Tiane, Dukkipati, Ram, Fervenza, Fernando, Sethi, Sanjeev, Kaskel, Frederick, Brathwaite, Kaye, Reidy, Kimberly, Weisstuch, Joseph, Wu, Ming, Zhdanova, Olga, Heymann, Jurgen, Kopp, Jeffrey, Waldman, Meryl, Winkler, Cheryl, Tuttle, Katherine, Krissberg, Jill, Lafayette, Richard, Fahmeedah, Kamal, Talley, Elizabeth, Hladunewich, Michelle, Parekh, Rulan, Avila-Casado, Carmen, Cattran, Daniel, Heather, Reich, Boll, Philip, Drexler, Yelena, Fornoni, Alessia, Gipson, Patrick, Hodgin, Jeffrey, Oliverio, Andrea, Hogan, Jon, Holzman, Lawrence, Palmer, Matthew, Coppock, Gaia, Abromovitz, Blaise, Mortiz, Michael, Alpers, Charles, Jefferson, J. Ashley, Brown, Elizabeth, Sambandam, Kamal, Roehm, Bethany, Smith, Abigail, Nast, Cynthia, Barisoni, Laura, Gillespie, Brenda, Robinson, Bruce, Kretzler, Matthias, Mariani, Laura, and Guay-Woodford, Lisa M.

Published

2024

5. Beyond Borders of the Cell: How Extracellular Vesicles Shape COVID-19 for People with Cystic Fibrosis

Author

Ewelina D. Hejenkowska, Hayrettin Yavuz, and Agnieszka Swiatecka-Urban

Subjects

COVID-19, cystic fibrosis, extracellular vesicles, TGF-β, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The interaction between extracellular vesicles (EVs) and SARS-CoV-2, the virus causing COVID-19, especially in people with cystic fibrosis (PwCF) is insufficiently studied. EVs are small membrane-bound particles involved in cell–cell communications in different physiological and pathological conditions, including inflammation and infection. The CF airway cells release EVs that differ from those released by healthy cells and may play an intriguing role in regulating the inflammatory response to SARS-CoV-2. On the one hand, EVs may activate neutrophils and exacerbate inflammation. On the other hand, EVs may block IL-6, a pro-inflammatory cytokine associated with severe COVID-19, and protect PwCF from adverse outcomes. EVs are regulated by TGF-β signaling, essential in different disease states, including COVID-19. Here, we review the knowledge, identify the gaps in understanding, and suggest future research directions to elucidate the role of EVs in PwCF during COVID-19.

Published

2024

6. Racial and Ethnic Disparities in Acute Care Utilization Among Patients With Glomerular Disease

Author

Ahn, Wooin, Appel, Gerald, Appelbaum, Paul, Babayev, Revekka, Bomback, Andrew, Brown, Eric, Canetta, Pietro, Carlassara, Lucrezia, Chan, Brenda, D’Agati, Vivette Denise, Dogra, Samitri, Fernandez, Hilda, Gharavi, Ali, Hines, William, Husain, Syed Ali, Kiryluk, Krzysztof, Lin, Fangming, Marasa, Maddalena, Markowitz, Glen, Rasouly, Hila Milo, Mohan, Sumit, Mongera, Nicola, Nickolas, Thomas, Radhakrishnan, Jai, Rao, Maya, Sanna-Cherchi, Simone, Shirazian, Shayan, Stokes, Michael Barry, Uy, Natalie, Valeri, Anthony, Vena, Natalie, Foroncewicz, Bartosz, Moszczuk, Barbara, Mucha, Krzysztof, Perkowska-Ptasińska, Agnieszka, Ghiggeri, Gian Marco, Ambruzs, Josephine, Liapis, Helen, Baracco, Rossana, Jain, Amrish, Ashoor, Isa, Srivastava, Tarak, Ahn, Sun-Young, Devarajan, Prasad, Erkan, Elif, Claes, Donna, Stone, Hillarey, Mason, Sherene, Silva, Cynthia, Gomez-Mendez, Liliana, Wang, Chia-shi, Yin, Hong (Julie), Jens, Goebel, Steinke, Julia, Cramer, Carl, Pan, Cindy, Sreedharan, Rajasree, Bowers, Corinna, Dreher, Mary, Kallash, Mahmoud, Mahan, John, Sharpe, Samantha, Smoyer, William, Al-Uzri, Amira, Belsha, Craig, Braun, Michael, Gomez, A.C., Feig, Daniel, Fuentes, Gabriel Cara, Hannah, Melisha, Nester, Carla, Chishti, Aftab, Klein, Jon, Katsoufis, Chryso, Seeherunvong, Wacharee, Rheault, Michelle, Wong, Craig, Mathews, Nisha, Barcia, John, Swiatecka-Urban, Agnes, Bartosh, Sharon, Hunley, Tracy, Dharnidharka, Vikas, Gaut, Joseph, Laurin, Louis-Philippe, Royal, Virginie, Achanti, Anand, Budisavljevic, Milos, Self, Sally, Ghossein, Cybele, Wadhwani, Shikha, Ayoub, Isabelle, Nadasdy, Tibor, Parikh, Samir, Rovin, Brad, Chang, Anthony, Fatima, Huma, Novak, Jan, Renfrow, Matthew, Rizk, Dana, Chen, Dhruti, Derebail, Vimal, Falk, Ronald, Gibson, Keisha, Hogan, Susan, Jain, Koyal, Jennette, J. Charles, Mottl, Amy, Poulton, Caroline, Saha, Manish Kanti, Fogo, Agnes, Sanghani, Neil, Kidd, Jason, Massey, Hugh, Muthusamy, Selvaraj, Ganesan, Santhi, Gonzalez-Vicente, Agustin, Schelling, Jeffrey, Hou, Jean, Lemley, Kevin, Mika, Warren, Russo, Pierre, Denburg, Michelle, Kogon, Amy, Meyers, Kevin, Pradhan, Madhura, Matar, Raed Bou, O’Toole, John, Sedor, John, Bagnasco, Serena, Neu, Alicia, Adler, Sharon, Dai, Tiane, Dukkipati, Ram, Fervenza, Fernando, Sethi, Sanjeev, Kaskel, Frederick, Vento, Suzanne, Weisstuch, Joseph, Wu, Ming, Zhdanova, Olga, Heymann, Jurgen, Waldman, Meryl, Winkler, Cheryl, Hladunewich, Michelle, Avila-Casado, Carmen, Cattran, Daniel, Heather, Reich, Boll, Philip, Drexler, Yelena, Fornoni, Alessia, Gipson, Patrick, Hodgin, Jeffrey, Oliverio, Andrew, Hogan, Jon, Holzman, Lawrence, Palmer, Matthew, Abromovitz, Blaise, Mortiz, Michael, Alpers, Charles, Jefferson, J. Ashley, Brown, Elizabeth, Sambandam, Kamal, Robinson, Bruce, Nast, Cynthia, Barisoni, Laura, Gillespie, Brenda, Gipson, Deb, Hicken, Maggie, Kretzler, Matthias, Mariani, Laura, Guay-Woodford, Lisa M., Krissberg, Jill R., O’Shaughnessy, Michelle M., Smith, Abigail R., Helmuth, Margaret E., Almaani, Salem, Aviles, Diego H., Brathwaite, Kaye E., Cai, Yi, Gbadegesin, Rasheed, Glenn, Dorey A., Greenbaum, Larry A., Iragorri, Sandra, Khalid, Myda, Kopp, Jeffrey, Lafayette, Richard, Lane, Jerome C., Lugani, Francesca, Nestor, Jordan G., Parekh, Rulan S., Reidy, Kimberly, Selewski, David T., Sethna, Christine B., Sperati, C. John, Tuttle, Katherine, Twombley, Katherine, Vasylyeva, Tetyana L., Weaver, Donald J., Jr., and Wenderfer, Scott E.

Published

2023

7. Cell signaling and regulation of CFTR expression in cystic fibrosis cells in the era of high efficiency modulator therapy

Author

Ghigo, Alessandra, De Santi, Chiara, Hart, Merrill, Mitash, Nilay, and Swiatecka-Urban, Agnieszka

Published

2023

8. Steroid-Sensitive Nephrotic Syndrome

Author

Iijima, Kazumoto, Swiatecka-Urban, Agnieszka, Niaudet, Patrick, Bagga, Arvind, Emma, Francesco, editor, Goldstein, Stuart L., editor, Bagga, Arvind, editor, Bates, Carlton M., editor, and Shroff, Rukshana, editor

Published

2022

9. Beyond Borders of the Cell: How Extracellular Vesicles Shape COVID-19 for People with Cystic Fibrosis

Author

Hejenkowska, Ewelina D., primary, Yavuz, Hayrettin, additional, and Swiatecka-Urban, Agnieszka, additional

Published

2024

10. TGF-β1 Inhibition of ACE2 Mediated by miRNA Uncovers Novel Mechanism of SARS-CoV-2 Pathogenesis

Author

Ewelina D. Hejenkowska, Nilay Mitash, Joshua E. Donovan, Anvita Chandra, Carol Bertrand, Chiara De Santi, Catherine M. Greene, Fangping Mu, and Agnieszka Swiatecka-Urban

Subjects

severe acute respiratory syndrome coronavirus 2, angiotensin-converting enzyme 2, cystic fibrosis, tgf-β1, mirna, Medicine, Internal medicine, RC31-1245

Abstract

The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), responsible for COVID-19, utilizes receptor binding domain (RBD) of spike glycoprotein to interact with angiotensin (Ang)-converting enzyme 2 (ACE2). Altering ACE2 levels may affect entry of SARS-CoV-2 and recovery from COVID-19. Decreased cell surface density of ACE2 leads to increased local levels of Ang II and may contribute to mortality resulting from acute lung injury and fibrosis during COVID-19. Studies published early during the COVID-19 pandemic reported that people with cystic fibrosis (PwCF) had milder symptoms, compared to people without CF. This finding was attributed to elevated ACE2 levels and/or treatment with the high efficiency CFTR modulators. Subsequent studies did not confirm these findings reporting variable effects of CFTR gene mutations on ACE2 levels. Transforming growth factor (TGF)-β signaling is essential during SARS-CoV-2 infection and dominates the chronic immune response in severe COVID-19, leading to pulmonary fibrosis. TGF-β1 is a gene modifier associated with more severe lung disease in PwCF but its effects on the COVID-19 course in PwCF is unknown. To understand whether TGF-β1 affects ACE2 levels in the airway, we examined miRNAs and their gene targets affecting SARS-CoV-2 pathogenesis in response to TGF-β1. Small RNAseq and micro(mi)RNA profiling identified pathways uniquely affected by TGF-β1, including those associated with SARS-CoV-2 invasion, replication, and the host immune responses. TGF-β1 inhibited ACE2 expression by miR-136-3p and miR-369-5p mediated mechanism in CF and non-CF bronchial epithelial cells. ACE2 levels were higher in two bronchial epithelial cell models expressing the most common CF-causing mutation in CFTR gene F508del, compared to controls without the mutation. After TGF-β1 treatment, ACE2 protein levels were still higher in CF, compared to non-CF cells. TGF-β1 prevented the modulator-mediated rescue of F508del-CFTR function while the modulators did not prevent the TGF-β1 inhibition of ACE2 levels. Finally, TGF-β1 reduced the interaction between ACE2 and the recombinant spike RBD by lowering ACE2 levels and its binding to RBD. Our data demonstrate novel mechanism whereby TGF-β1 inhibition of ACE2 in CF and non-CF bronchial epithelial cells may modulate SARS-CoV-2 pathogenicity and COVID-19 severity. By reducing ACE2 levels, TGF-β1 may decrease entry of SARS-CoV-2 into the host cells while hindering the recovery from COVID-19 due to loss of the anti-inflammatory and regenerative effects of ACE2. The above outcomes may be modulated by other, miRNA-mediated effects exerted by TGF-β1 on the host immune responses, leading to a complex and yet incompletely understood circuitry.

Published

2023

11. Longitudinal Changes in Health-Related Quality of Life in Primary Glomerular Disease: Results From the CureGN Study

Author

Gharavi, Ali, Ahn, Wooin, Appel, Gerald B., Avasare, Rupali S., Babayev, Revekka, Batal, Ibrahim, Bomback, Andrew S., Brown, Eric, Campenot, Eric S., Canetta, Pietro, Chan, Brenda, D’Agati, Vivette D., Fernandez, Hilda, Foroncewicz, Bartosz, Ghiggeri, Gian Marco, Hines, William H., Jain, Namrata G., Kiryluk, Krzysztof, Lin, Fangming, Lugani, Francesca, Marasa, Maddalena, Markowitz, Glen, Mohan, Sumit, Mucha, Krzysztof, Nickolas, Thomas L., Radhakrishnan, Jai, Rao, Maya K., Regunathan-Shenk, Renu, Sanna-Cherchi, Simone, Santoriello, Dominick, Stokes, Michael B., Yu, Natalie, Valeri, Anthony M., Zviti, Ronald, Greenbaum, Larry A., Smoyer, William E., Al-Uzri, Amira, Ashoor, Isa, Aviles, Diego, Baracco, Rossana, Barcia, John, Bartosh, Sharon, Belsha, Craig, Braun, Michael C., Chishti, Aftab, Claes, Donna, Cramer, Carl, Davis, Keefe, Erkan, Elif, Feig, Daniel, Freundlich, Michael, Hanna, Melisha, Hidalgo, Guillermo, Jain, Amrish, Khalid, Myda, Kallash, Mahmoud, Lane, Jerome C., Mahan, John, Mathews, Nisha, Nester, Carla, Pan, Cynthia, Patel, Hiren, Revell, Adelaide, Sreedharan, Rajasree, Steinke, Julia, Wenderfer, Scott E., Wong, Craig S., Falk, Ronald, Cook, William, Derebail, Vimal, Fogo, Agnes, Gasim, Adil, Gehr, Todd, Harris, Raymond, Kidd, Jason, Laurin, Louis-Philippe, Pendergraft, Will, Pichette, Vincent, Powell, Thomas Brian, Renfrow, Matthew B., Royal, Virginie, Holzman, Lawrence B., Adler, Sharon, Alpers, Charles, Matar, Raed Bou, Brown, Elizabeth, Choi, Michael, Dell, Katherine M., Dukkipati, Ram, Fervenza, Fernando C., Fornoni, Alessia, Gadegbeku, Crystal, Gipson, Patrick, Hasely, Leah, Hingorani, Sangeeta, Hladunewich, Michelle A., Hogan, Jonathan, Jefferson, J. Ashley, Jhaveri, Kenar, Johnstone, Duncan B., Kaskel, Frederick, Kogan, Amy, Kopp, Jeffrey, Lemley, Kevin V., Dieguez, Laura Malaga, Meyers, Kevin, Neu, Alicia, O'Shaughnessy, Michelle Marie, O’Toole, John F., Parekh, Rulan, Reich, Heather, Reidy, Kimberly, Rondon, Helbert, Sambandam, Kamalanathan K., Sedor, John R., Selewski, David T., Sethna, Christine B., Schelling, Jeffrey, Sperati, John C., Swiatecka-Urban, Agnes, Trachtman, Howard, Tuttle, Katherine R., Weisstuch, Joseph, Zhdanova, Olga, Gillespie, Brenda, Gipson, Debbie S., Herreshoff, Emily, Kretzler, Matthias, Robinson, Bruce M., Mariani, Laura, Troost, Jonathan P., Wladkowski, Matthew, Guay-Woodford, Lisa M., Murphy, Shannon L., Mahan, John D., Srivastava, Tarak, Kogon, Amy J., Cai, Yi, Davis, T. Keefe, Gbadegesin, Rasheed A., Canetta, Pietro A., Nachman, Patrick H., Reeve, Bryce B., Wang, Chia-shi, and Bartosh, Sharon M.

Published

2020

12. Post-transplant Recurrence of Focal Segmental Glomerulosclerosis: Consensus Statements

Author

Raina, Rupesh, primary, Jothi, Swathi, additional, Haffner, Dieter, additional, Somers, Michael, additional, Filler, Guido, additional, Vasistha, Prabhav, additional, Chakraborty, Ronith, additional, Shapiro, Ron, additional, Randhawa, Parmjeet S., additional, Parekh, Rulan, additional, Licht, Christopher, additional, Bunchman, Timothy, additional, Sethi, Sidharth, additional, Mangat, Guneive, additional, Zaritsky, Joshua, additional, Schaefer, Franz, additional, Warady, Bradley, additional, Bartosh, Sharon, additional, McCulloch, Mignon, additional, Alhasan, Khalid, additional, Swiatecka-Urban, Agnieszka, additional, Smoyer, William E., additional, Chandraker, Anil, additional, Yap, Hui Kim, additional, Jha, Vivekananda, additional, Bagga, Arvind, additional, and Radhakrishnan, Jai, additional

Published

2023

13. Longitudinal Changes in Health-Related Quality of Life in Primary Glomerular Disease: Results From the CureGN Study

Author

Shannon L. Murphy, John D. Mahan, Jonathan P. Troost, Tarak Srivastava, Amy J. Kogon, Yi Cai, T. Keefe Davis, Hilda Fernandez, Alessia Fornoni, Rasheed A. Gbadegesin, Emily Herreshoff, Pietro A. Canetta, Patrick H. Nachman, Bryce B. Reeve, David T. Selewski, Christine B. Sethna, Chia-shi Wang, Sharon M. Bartosh, Debbie S. Gipson, Katherine R. Tuttle, Ali Gharavi, Wooin Ahn, Gerald B. Appel, Rupali S. Avasare, Revekka Babayev, Ibrahim Batal, Andrew S. Bomback, Eric Brown, Eric S. Campenot, Pietro Canetta, Brenda Chan, Vivette D. D’Agati, Bartosz Foroncewicz, Gian Marco Ghiggeri, William H. Hines, Namrata G. Jain, Krzysztof Kiryluk, Fangming Lin, Francesca Lugani, Maddalena Marasa, Glen Markowitz, Sumit Mohan, Krzysztof Mucha, Thomas L. Nickolas, Jai Radhakrishnan, Maya K. Rao, Renu Regunathan-Shenk, Simone Sanna-Cherchi, Dominick Santoriello, Michael B. Stokes, Natalie Yu, Anthony M. Valeri, Ronald Zviti, Larry A. Greenbaum, William E. Smoyer, Amira Al-Uzri, Isa Ashoor, Diego Aviles, Rossana Baracco, John Barcia, Sharon Bartosh, Craig Belsha, Michael C. Braun, Aftab Chishti, Donna Claes, Carl Cramer, Keefe Davis, Elif Erkan, Daniel Feig, Michael Freundlich, Melisha Hanna, Guillermo Hidalgo, Amrish Jain, Myda Khalid, Mahmoud Kallash, MD, Jerome C. Lane, John Mahan, Nisha Mathews, Carla Nester, Cynthia Pan, Hiren Patel, Adelaide Revell, Rajasree Sreedharan, Julia Steinke, Scott E. Wenderfer, Craig S. Wong, Ronald Falk, William Cook, Vimal Derebail, Agnes Fogo, Adil Gasim, Todd Gehr, Raymond Harris, Jason Kidd, Louis-Philippe Laurin, Will Pendergraft, Vincent Pichette, Thomas Brian Powell, Matthew B. Renfrow, Virginie Royal, Lawrence B. Holzman, Sharon Adler, Charles Alpers, Raed Bou Matar, Elizabeth Brown, Michael Choi, Katherine M. Dell, Ram Dukkipati, Fernando C. Fervenza, Crystal Gadegbeku, Patrick Gipson, Leah Hasely, Sangeeta Hingorani, Michelle A. Hladunewich, Jonathan Hogan, J. Ashley Jefferson, Kenar Jhaveri, Duncan B. Johnstone, Frederick Kaskel, Amy Kogan, Jeffrey Kopp, Kevin V. Lemley, Laura Malaga- Dieguez, Kevin Meyers, Alicia Neu, Michelle Marie O'Shaughnessy, John F. O’Toole, Rulan Parekh, Heather Reich, Kimberly Reidy, Helbert Rondon, Kamalanathan K. Sambandam, John R. Sedor, Jeffrey Schelling, John C. Sperati, Agnes Swiatecka-Urban, Howard Trachtman, Joseph Weisstuch, Olga Zhdanova, Brenda Gillespie, Matthias Kretzler, Bruce M. Robinson, Laura Mariani, Matthew Wladkowski, and Lisa M. Guay-Woodford

Subjects

edema, health-related quality of life, patient-reported outcomes, primary glomerular disease, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Introduction: Prior cross-sectional studies suggest that health-related quality of life (HRQOL) worsens with more severe glomerular disease. This longitudinal analysis was conducted to assess changes in HRQOL with changing disease status. Methods: Cure Glomerulonephropathy (CureGN) is a cohort of patients with minimal change disease, focal segmental glomerulosclerosis, membranous nephropathy, IgA vasculitis, or IgA nephropathy. HRQOL was assessed at enrollment and follow-up visits 1 to 3 times annually for up to 5 years with the Patient-Reported Outcomes Measurement Information System (PROMIS). Global health, anxiety, and fatigue domains were measured in all; mobility was measured in children; and sleep-related impairment was measured in adults. Linear mixed effects models were used to evaluate HRQOL responsiveness to changes in disease status. Results: A total of 469 children and 1146 adults with PROMIS scores were included in the analysis. HRQOL improved over time in nearly all domains, though group-level changes were modest. Edema was most consistently associated with worse HRQOL across domains among children and adults. A greater number of symptoms also predicted worse HRQOL in all domains. Sex, age, obesity, and serum albumin were associated with some HRQOL domains. The estimated glomerular filtration rate (eGFR) was only associated with fatigue and adult physical health; proteinuria was not associated with any HRQOL domain in adjusted models. Conclusion: HRQOL measures were responsive to changes in disease activity, as indicated by edema. HRQOL over time was not predicted by laboratory-based markers of disease. Patient-reported edema and number of symptoms were the strongest predictors of HRQOL, highlighting the importance of the patient experience in glomerular disease. HRQOL outcomes inform understanding of the patient experience for children and adults with glomerular diseases.

Published

2020

14. Steroid-Sensitive Nephrotic Syndrome

Author

Iijima, Kazumoto, primary, Swiatecka-Urban, Agnieszka, additional, Niaudet, Patrick, additional, and Bagga, Arvind, additional

Published

2021

15. Early Urinary Markers of Kidney Injury in Adult People with Cystic Fibrosis Correlate with Neutrophil Activation and Lung Infection

Author

Rosner, Grace M., primary, Goswami, Himanshu Ballav, additional, Sessions, Katherine, additional, Mendyka, Lindsay K., additional, Kerin, Brenna, additional, Vlasac, Irma, additional, Mellinger, Diane, additional, Gwilt, Lorraine, additional, Hampton, Thomas H., additional, Graber, Martha, additional, Ashare, Alix, additional, Harris, William T., additional, Christensen, Brock, additional, Swiatecka-Urban, Agnieszka, additional, Stanton, Bruce A., additional, and Skopelja-Gardner, Sladjana, additional

Published

2023

16. 358 CFTR absence affects kidney structure and function

Author

Miszczuk, M., primary, Hart, M., additional, DeRonde, K., additional, Hodges, C., additional, Charlton, J., additional, and Swiatecka-Urban, A., additional

Published

2023

17. 347 Early markers of chronic kidney disease in people with cystic fibrosis

Author

Rosner, G., primary, Sessions, K., additional, Goswami, H., additional, Mellinger, D., additional, Gwilt, L., additional, Hampton, T., additional, Ashare, A., additional, Graber, M., additional, Swiatecka-Urban, A., additional, and Stanton, B., additional

Published

2023

18. 348 Single-cell multi-omics profiling reveals novel regulatory networks of CFTR in the kidney

Author

Miszczuk, M., primary, Tian, K., additional, Hu, S., additional, Skopelja-Gardner, S., additional, Hodges, C., additional, Zang, C., additional, and Swiatecka-Urban, A., additional

Published

2023

19. Cell signaling and regulation of CFTR expression in cystic fibrosis cells in the era of high efficiency modulator therapy

Author

Alessandra Ghigo, Chiara De Santi, Merrill Hart, Nilay Mitash, and Agnieszka Swiatecka-Urban

Subjects

Pulmonary and Respiratory Medicine, Pediatrics, Perinatology and Child Health

Abstract

Cystic fibrosis transmembrane conductance regulator (CFTR) is a cAMP- and protein kinase A (PKA)-regulated channel, expressed on the luminal surface of secretory and absorptive epithelial cells. CFTR has a complex, cell-specific regulatory network playing a major role in cAMP- and Ca

Published

2023

20. Differential Gene Expression Analysis Reveals Global LMTK2 Regulatory Network and Its Role in TGF-β1 Signaling

Author

Daniel F. Cruz, Nilay Mitash, Fangping Mu, Carlos M. Farinha, and Agnieszka Swiatecka-Urban

Subjects

LMTK2, TGF-β1, RNAseq, gene expression, signaling pathway, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Lemur tyrosine kinase 2 (LMTK2) is a transmembrane Ser/Thr kinase whose role has been increasingly recognized; however, when compared to other kinases, understanding of the LMTK2 networks and biological functions is still limited. Recent data have shown that transforming growth factor (TGF)-β1 plays a role in modulating LMTK2 function by controlling its endocytic trafficking in human bronchial epithelial cells. Here, we aimed to unveil the LMTK2 regulatory network and elucidate how it affects cellular functions and disease pathways in either TGF-β1 dependent or independent manner. To understand how the LMTK2 and TGF-β1 pathways interconnect, we knocked down (KD) LMTK2 using small(si)RNA-mediated silencing in human bronchial epithelial CFBE41o- cells, treated cells with TGF-β1 or vehicle control, and performed differential gene expression analysis by RNA sequencing (RNAseq). In vehicle-treated cells, LMTK2 KD affected expression of 2,506 genes while it affected 4,162 genes after TGF-β1 stimulation. Bioinformatics analysis shows that LMTK2 is involved in diverse cellular functions and disease pathways, such as cell death and survival, cellular development, and cancer susceptibility. In summary, our study increases current knowledge about the LMTK2 network and its intersection with the TGF-β1 signaling pathway. These findings will serve as basis for future exploration of the predicted LMTK2 interactions and signaling pathways.

Published

2021

21. Extra-renal manifestations of atypical hemolytic uremic syndrome

Author

Formeck, Cassandra and Swiatecka-Urban, Agnieszka

Subjects

Hemolytic-uremic syndrome -- Diagnosis -- Complications and side effects -- Demographic aspects, Pediatric research, Health

Abstract

Atypical hemolytic uremic syndrome (aHUS) is a rare and complex disease resulting from abnormal alternative complement activation with a wide range of clinical presentations. Extra-renal manifestations of aHUS can involve many organ systems, including the peripheral and central nervous, gastrointestinal, cardiovascular, integumentary, pulmonary, as well as the eye. While some of these extra-renal manifestations occur in the acute phase of aHUS, some can also occur as long-term sequelae of unopposed complement activation. Extra-renal symptoms are observed in approximately 20% of patients with aHUS, with the incidence of specific organ system complications ranging from a few case reports to 50% of described patients. Careful monitoring for extra-renal involvement is critical in patients with aHUS, as prompt evaluation and management may decrease the risk of high morbidity and mortality associated with aHUS., Author(s): Cassandra Formeck [sup.1] , Agnieszka Swiatecka-Urban [sup.1] Author Affiliations: (Aff1) 0000 0004 1936 9000, grid.21925.3d, Department of Nephrology, Children's Hospital of Pittsburgh of UPMC, University of Pittsburgh School of [...]

Published

2019

22. Post-transplant recurrence of focal segmental glomerular sclerosis: consensus statements

Author

Raina, Rupesh, Jothi, Swathi, Haffner, Dieter, Somers, Michael, Filler, Guido, Vasistha, Prabhav, Chakraborty, Ronith, Shapiro, Ron, Randhawa, Parmjeet S., Parekh, Rulan, Licht, Christopher, Bunchman, Timothy, Sethi, Sidharth, Mangat, Guneive, Zaritsky, Joshua, Schaefer, Franz, Warady, Bradley, Bartosh, Sharon, McCulloch, Mignon, Alhasan, Khalid, Swiatecka-Urban, Agnieszka, Smoyer, William E., Chandraker, Anil, Yap, Hui Kim, Jha, Vivekanand, Bagga, Arvind, and Radhakrishnan, Jai

Published

2024

23. Therapeutic Response to Corticosteroids Remains a Valid Approach to Initial Management of Children With Idiopathic Nephrotic Syndrome

Author

Deepti Narla and Agnieszka Swiatecka-Urban

Subjects

FSGS, minimal change disease, corticosteroids, steroid-sensitive, steroid-resistant, relapse, Pediatrics, RJ1-570

Abstract

Complete remission of idiopathic nephrotic syndrome (INS) in response to corticosteroids has been widely adopted as an indicator of satisfactory long-term outcomes in pediatric patients. The approach was based on the results of studies conducted in the 1960s and 1970s. The studies found that corticosteroid-responsive minimal change disease (MCD) was the most frequent diagnosis in INS patients. In more recent years, studies have reported increased frequency of focal segmental glomerulosclerosis (FSGS) and primary corticosteroid resistance without a corresponding increase of FSGS. It became unclear whether withholding kidney biopsy before treatment with corticosteroids is still the best management practice. We performed a retrospective chart review at the UPMC Children's Hospital of Pittsburgh and identified patients who were referred for evaluation of edema or proteinuria between 2002 and 2014. We identified 114 pediatric patients with INS who were treated initially with a corticosteroid (prednisone or prednisolone) 2 mg/kg (max 60 mg)/day for 4–6 weeks followed by 2 mg/kg (max 60 mg) every other day for 4–6 weeks and had not received a corticosteroid-sparing agent before completing at least 8 weeks of the initial therapy. Corticosteroid resistance in pediatric INS patients was independently associated with the black race, older age at presentation (>8 years), and female sex. The majority of blacks who were resistant to corticosteroids had a tissue diagnosis of MCD. Among the whites who were steroid-resistant, MCD and FSGS were diagnosed in similar proportions of cases. Thus, the tissue diagnosis in could not predict the response to corticosteroids. Nineteen percent of whites with FSGS were steroid-sensitive and none of the blacks with FSGS responded to corticosteroids. These data suggest that the histologic diagnosis of FSGS could not rule out response to corticosteroids, at least, in the white patient population. In summary, our data demonstrate that at this time, the therapeutic response to corticosteroids continues to be a valid approach for the initial evaluation and therapy of children diagnosed with INS at our center. Future studies should evaluate the mechanisms of changing characteristics of pediatric INS. The specific role of patient demographics, ethnicity, as well as genetic and environmental factors could be evaluated by a prospective, multicenter study.

Published

2020

24. TGF-β1 Augments the Apical Membrane Abundance of Lemur Tyrosine Kinase 2 to Inhibit CFTR-Mediated Chloride Transport in Human Bronchial Epithelia

Author

Daniel F. Cruz, Nilay Mitash, Carlos M. Farinha, and Agnieszka Swiatecka-Urban

Subjects

LMTK2, TGF-β1, bronchial epithelial cells, endocytosis, recycling, cystic fibrosis, Biology (General), QH301-705.5

Abstract

The most common disease-causing mutation in the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) gene, F508del, leads to cystic fibrosis (CF), by arresting CFTR processing and trafficking to the plasma membrane. The FDA-approved modulators partially restore CFTR function and slow down the progression of CF lung disease by increasing processing and delivery to the plasma membrane and improving activity of F508del-CFTR Cl– channels. However, the modulators do not correct compromised membrane stability of rescued F508del-CFTR. Transforming growth factor (TGF)-β1 is a well-established gene modifier of CF associated with worse lung disease in F508del-homozygous patients, by inhibiting CFTR biogenesis and blocking the functional rescue of F508del-CFTR. Lemur tyrosine kinase 2 (LMTK2) is a transmembrane protein localized at the apical and basolateral membrane domain of human bronchial epithelial cells. Phosphorylation of the apical membrane CFTR by LMTK2 triggers its endocytosis and reduces the abundance of membrane-associated CFTR, impairing the CFTR-mediated Cl– transport. We have previously shown that LMTK2 knockdown improves the pharmacologically rescued F508del-CFTR abundance and function. Thus, reducing the LMTK2 recruitment to the plasma membrane may provide a useful strategy to potentiate the pharmacological rescue of F508del-CFTR. Here, we elucidate the mechanism of LMTK2 recruitment to the apical plasma membrane in polarized CFBE41o- cells. TGF-β1 increased LMTK2 abundance selectively at the apical membrane by accelerating its recycling in Rab11-positive vesicles without affecting LMTK2 mRNA levels, protein biosynthesis, or endocytosis. Our data suggest that controlling TGF-β1 signaling may attenuate recruitment of LMTK2 to the apical membrane thereby improving stability of pharmacologically rescued F508del-CFTR.

Published

2020

25. Identification of a novel functional miR-143-5p recognition element in the Cystic Fibrosis Transmembrane Conductance Regulator 3’UTR

Author

Chiara De Santi, Sucharitha Gadi, Agnieszka Swiatecka-Urban, and Catherine M. Greene

Subjects

microRNA, cystic fibrosis, CFTR, qRT-PCR, luciferase assay, Genetics, QH426-470

Abstract

MicroRNAs (miRNAs) are small non-coding RNAs involved in regulation of gene expression. They bind in a sequence-specific manner to miRNA recognition elements (MREs) located in the 3’ untranslated region (UTR) of target mRNAs and prevent mRNA translation. MiRNA expression is dysregulated in cystic fibrosis (CF), affecting several biological processes including ion conductance in the epithelial cells of the lung. We previously reported that miR-143 is up-regulated in CF bronchial brushings compared to non-CF. Here we identified two predicted binding sites for miR-143-5p (starting at residues 558 and 644) on the CFTR mRNA, and aimed to assess whether CFTR is a true molecular target of miR-143-5p. Expression of miR-143-5p was found to be up-regulated in a panel of CF vs non-CF cell lines (1.7-fold, P = 0.0165), and its levels were increased in vitro after 20 hours treatment with bronchoalveolar lavage fluid from CF patients compared to vehicle-treated cells (3.3-fold, P = 0.0319). Luciferase assays were performed to elucidate direct miRNA::target interactions and showed that miR-143-5p significantly decreased the reporter activity when carrying the wild-type full length sequence of CFTR 3’UTR (minus 15%, P = 0.005). This repression was rescued by the disruption of the first, but not the second, predicted MRE, suggesting that the residue starting at 558 was the actual active binding site. In conclusion, we here showed that miR-143-5p modestly but significantly inhibits CFTR, improving the knowledge on functional MREs within the CFTR 3’UTR. This could lead to the development of novel therapeutic strategies where miRNA-mediated CFTR repression is blocked thereby possibly increasing the efficacy of the currently available CFTR modulators.

Published

2018

26. Association of COVID-19 Versus COVID-19 Vaccination With Kidney Function and Disease Activity in Primary Glomerular Disease: A Report of the Cure Glomerulonephropathy Study

Author

Wang, Chia-shi, primary, Glenn, Dorey A., additional, Helmuth, Margaret, additional, Smith, Abigail R., additional, Bomback, Andrew S., additional, Canetta, Pietro A., additional, Coppock, Gaia M., additional, Khalid, Myda, additional, Tuttle, Katherine R., additional, Bou-Matar, Raed, additional, Greenbaum, Larry A., additional, Robinson, Bruce M., additional, Holzman, Lawrence B., additional, Smoyer, William E., additional, Rheault, Michelle N., additional, Gipson, Debbie, additional, Mariani, Laura H., additional, Ahn, Wooin, additional, Appel, Gerald, additional, Appelbaum, Paul, additional, Babayev, Revekka, additional, Chan, Brenda, additional, D'Agati, Vivette Denise, additional, Dogra, Samitri, additional, Fernandez, Hilda, additional, Gharavi, Ali, additional, Hines, William, additional, Husain, Syed Ali, additional, Jain, Namrata, additional, Kiryluk, Krzysztof, additional, Lin, Fangming, additional, Marasa, Maddalena, additional, Markowitz, Glen, additional, Rasouly, Hila Milo, additional, Mohan, Sumit, additional, Mongera, Nicola, additional, Nestor, Jordan, additional, Nickolas, Thomas, additional, Radhakrishnan, Jai, additional, Rao, Maya, additional, Sanna-Cherchi, Simone, additional, Shirazian, Shayan, additional, Stokes, Michael Barry, additional, Uy, Natalie, additional, Valeri, Anthony, additional, Vena, Natalie, additional, Foroncewicz, Bartosz, additional, Moszczuk, Barbara, additional, Mucha, Krzysztof, additional, Perkowska-Ptasińska, Agnieszka, additional, Ghiggeri, Gian Marco, additional, Lugani, Francesca, additional, Ambruzs, Josephine, additional, Liapis, Helen, additional, Baracco, Rossana, additional, Jain, Amrish, additional, Ashoor, Isa, additional, Aviles, Diego, additional, Srivastava, Tarak, additional, Ahn, Sun-Young, additional, Devarajan, Prasad, additional, Erkan, Elif, additional, Claes, Donna, additional, Stone, Hillarey, additional, Mason, Sherene, additional, Gbadegesin, Rasheed, additional, Gomez-Mendez, Liliana, additional, Yin, Hong (Julie), additional, Cai, Yi, additional, Jens, Goebel, additional, Steinke, Julia, additional, Weaver, Donald, additional, Lane, Jerome, additional, Cramer, Carl, additional, Pan, Cindy, additional, Paloian, Neil, additional, Sreedharan, Rajasree, additional, Selewski, David, additional, Twombley, Katherine, additional, Bowers, Corinna, additional, Dreher, Mary, additional, Kallash, Mahmoud, additional, Mahan, John, additional, Sharpe, Samantha, additional, Al-Uzri, Amira, additional, Iragorri, Sandra, additional, Belsha, Craig, additional, Alge, Joseph, additional, Braun, Michael, additional, Gomez, A.C., additional, Wenderfer, Scott, additional, Vasylyeva, Tetyana, additional, Feig, Daniel, additional, Fuentes, Gabriel Cara, additional, Hannah, Melisha, additional, Nester, Carla, additional, Chishti, Aftab, additional, Klein, Jon, additional, Katsoufis, Chryso, additional, Seeherunvong, Wacharee, additional, Wong, Craig, additional, Mathews, Nisha, additional, Barcia, John, additional, Swiatecka-Urban, Agnes, additional, Bartosh, Sharon, additional, Hunley, Tracy, additional, Dharnidharka, Vikas, additional, Gaut, Joseph, additional, Laurin, Louis-Philippe, additional, Royal, Virginie, additional, Achanti, Anand, additional, Budisavljevic, Milos, additional, Self, Sally, additional, Ghossein, Cybele, additional, Peleg, Yonatan, additional, Wadhwani, Shikha, additional, Almaani, Salem, additional, Ayoub, Isabelle, additional, Nadasdy, Tibor, additional, Parikh, Samir, additional, Rovin, Brad, additional, Chang, Anthony, additional, Fatima, Huma, additional, Julian, Bruce, additional, Novak, Jan, additional, Renfrow, Matthew, additional, Rizk, Dana, additional, Chen, Dhruti, additional, Derebail, Vimal, additional, Falk, Ronald, additional, Gibson, Keisha, additional, Hogan, Susan, additional, Jain, Koyal, additional, Jennette, J. Charles, additional, Mottl, Amy, additional, Poulton, Caroline, additional, Saha, Manish Kanti, additional, Fogo, Agnes, additional, Sanghani, Neil, additional, Kidd, Jason, additional, Muthusamy, Selvaraj, additional, Schelling, Jeffrey, additional, Hou, Jean, additional, Lemley, Kevin, additional, Mika, Warren, additional, Russo, Pierre, additional, Denburg, Michelle, additional, Kogon, Amy, additional, Meyers, Kevin, additional, Pradhan, Madhura, additional, O'Toole, John, additional, Sedor, John, additional, Sethna, Christine, additional, Vento, Suzanne, additional, Atta, Mohamed, additional, Bagnasco, Serena, additional, Neu, Alicia, additional, Sperati, John, additional, Adler, Sharon, additional, Dai, Tiane, additional, Dukkipati, Ram, additional, Fervenza, Fernando, additional, Sethi, Sanjeev, additional, Kaskel, Frederick, additional, Brathwaite, Kaye, additional, Reidy, Kimberly, additional, Weisstuch, Joseph, additional, Wu, Ming, additional, Zhdanova, Olga, additional, Heymann, Jurgen, additional, Kopp, Jeffrey, additional, Waldman, Meryl, additional, Winkler, Cheryl, additional, Krissberg, Jill, additional, Lafayette, Richard, additional, Fahmeedah, Kamal, additional, Talley, Elizabeth, additional, Hladunewich, Michelle, additional, Parekh, Rulan, additional, Avila-Casado, Carmen, additional, Cattran, Daniel, additional, Heather, Reich, additional, Boll, Philip, additional, Drexler, Yelena, additional, Fornoni, Alessia, additional, Blazius, Brooke, additional, Hodgin, Jeffrey, additional, Oliverio, Andrea, additional, Hogan, Jon, additional, Palmer, Matthew, additional, Abromovitz, Blaise, additional, Mortiz, Michael, additional, Alpers, Charles, additional, Jefferson, J. Ashley, additional, Brown, Elizabeth, additional, Sambandam, Kamal, additional, Roehm, Bethany, additional, Graff, John, additional, Nast, Cynthia, additional, Barisoni, Laura, additional, Gillespie, Brenda, additional, and Kretzler, Matthias, additional

Published

2023

27. A circular RNA regulates ion conductance in cystic fibrosis bronchial epithelium

Author

De Santi, C, primary, Hurley, K, additional, Swiatecka-Urban, A, additional, and Greene, C, additional

Published

2023

28. Racial and Ethnic Disparities in Acute Care Utilization Among Patients With Glomerular Disease

Author

Krissberg, Jill R., primary, O’Shaughnessy, Michelle M., additional, Smith, Abigail R., additional, Helmuth, Margaret E., additional, Almaani, Salem, additional, Aviles, Diego H., additional, Brathwaite, Kaye E., additional, Cai, Yi, additional, Cattran, Daniel, additional, Gbadegesin, Rasheed, additional, Glenn, Dorey A., additional, Greenbaum, Larry A., additional, Iragorri, Sandra, additional, Jain, Koyal, additional, Khalid, Myda, additional, Kidd, Jason, additional, Kopp, Jeffrey, additional, Lafayette, Richard, additional, Lane, Jerome C., additional, Lugani, Francesca, additional, Nestor, Jordan G., additional, Parekh, Rulan S., additional, Reidy, Kimberly, additional, Selewski, David T., additional, Sethna, Christine B., additional, Sperati, C. John, additional, Tuttle, Katherine, additional, Twombley, Katherine, additional, Vasylyeva, Tetyana L., additional, Weaver, Donald J., additional, Wenderfer, Scott E., additional, Gibson, Keisha, additional, Ahn, Wooin, additional, Appel, Gerald, additional, Appelbaum, Paul, additional, Babayev, Revekka, additional, Bomback, Andrew, additional, Brown, Eric, additional, Canetta, Pietro, additional, Carlassara, Lucrezia, additional, Chan, Brenda, additional, D’Agati, Vivette Denise, additional, Dogra, Samitri, additional, Fernandez, Hilda, additional, Gharavi, Ali, additional, Hines, William, additional, Husain, Syed Ali, additional, Kiryluk, Krzysztof, additional, Lin, Fangming, additional, Marasa, Maddalena, additional, Markowitz, Glen, additional, Rasouly, Hila Milo, additional, Mohan, Sumit, additional, Mongera, Nicola, additional, Nickolas, Thomas, additional, Radhakrishnan, Jai, additional, Rao, Maya, additional, Sanna-Cherchi, Simone, additional, Shirazian, Shayan, additional, Stokes, Michael Barry, additional, Uy, Natalie, additional, Valeri, Anthony, additional, Vena, Natalie, additional, Foroncewicz, Bartosz, additional, Moszczuk, Barbara, additional, Mucha, Krzysztof, additional, Perkowska-Ptasińska, Agnieszka, additional, Ghiggeri, Gian Marco, additional, Ambruzs, Josephine, additional, Liapis, Helen, additional, Baracco, Rossana, additional, Jain, Amrish, additional, Ashoor, Isa, additional, Srivastava, Tarak, additional, Ahn, Sun-Young, additional, Devarajan, Prasad, additional, Erkan, Elif, additional, Claes, Donna, additional, Stone, Hillarey, additional, Mason, Sherene, additional, Silva, Cynthia, additional, Gomez-Mendez, Liliana, additional, Wang, Chia-shi, additional, Yin, Hong (Julie), additional, Jens, Goebel, additional, Steinke, Julia, additional, Cramer, Carl, additional, Pan, Cindy, additional, Sreedharan, Rajasree, additional, Bowers, Corinna, additional, Dreher, Mary, additional, Kallash, Mahmoud, additional, Mahan, John, additional, Sharpe, Samantha, additional, Smoyer, William, additional, Al-Uzri, Amira, additional, Belsha, Craig, additional, Braun, Michael, additional, Gomez, A.C., additional, Feig, Daniel, additional, Fuentes, Gabriel Cara, additional, Hannah, Melisha, additional, Nester, Carla, additional, Chishti, Aftab, additional, Klein, Jon, additional, Katsoufis, Chryso, additional, Seeherunvong, Wacharee, additional, Rheault, Michelle, additional, Wong, Craig, additional, Mathews, Nisha, additional, Barcia, John, additional, Swiatecka-Urban, Agnes, additional, Bartosh, Sharon, additional, Hunley, Tracy, additional, Dharnidharka, Vikas, additional, Gaut, Joseph, additional, Laurin, Louis-Philippe, additional, Royal, Virginie, additional, Achanti, Anand, additional, Budisavljevic, Milos, additional, Self, Sally, additional, Ghossein, Cybele, additional, Wadhwani, Shikha, additional, Ayoub, Isabelle, additional, Nadasdy, Tibor, additional, Parikh, Samir, additional, Rovin, Brad, additional, Chang, Anthony, additional, Fatima, Huma, additional, Novak, Jan, additional, Renfrow, Matthew, additional, Rizk, Dana, additional, Chen, Dhruti, additional, Derebail, Vimal, additional, Falk, Ronald, additional, Hogan, Susan, additional, Jennette, J. Charles, additional, Mottl, Amy, additional, Poulton, Caroline, additional, Saha, Manish Kanti, additional, Fogo, Agnes, additional, Sanghani, Neil, additional, Massey, Hugh, additional, Muthusamy, Selvaraj, additional, Ganesan, Santhi, additional, Gonzalez-Vicente, Agustin, additional, Schelling, Jeffrey, additional, Hou, Jean, additional, Lemley, Kevin, additional, Mika, Warren, additional, Russo, Pierre, additional, Denburg, Michelle, additional, Kogon, Amy, additional, Meyers, Kevin, additional, Pradhan, Madhura, additional, Matar, Raed Bou, additional, O’Toole, John, additional, Sedor, John, additional, Bagnasco, Serena, additional, Neu, Alicia, additional, Adler, Sharon, additional, Dai, Tiane, additional, Dukkipati, Ram, additional, Fervenza, Fernando, additional, Sethi, Sanjeev, additional, Kaskel, Frederick, additional, Vento, Suzanne, additional, Weisstuch, Joseph, additional, Wu, Ming, additional, Zhdanova, Olga, additional, Heymann, Jurgen, additional, Waldman, Meryl, additional, Winkler, Cheryl, additional, Hladunewich, Michelle, additional, Avila-Casado, Carmen, additional, Heather, Reich, additional, Boll, Philip, additional, Drexler, Yelena, additional, Fornoni, Alessia, additional, Gipson, Patrick, additional, Hodgin, Jeffrey, additional, Oliverio, Andrew, additional, Hogan, Jon, additional, Holzman, Lawrence, additional, Palmer, Matthew, additional, Abromovitz, Blaise, additional, Mortiz, Michael, additional, Alpers, Charles, additional, Jefferson, J. Ashley, additional, Brown, Elizabeth, additional, Sambandam, Kamal, additional, Robinson, Bruce, additional, Nast, Cynthia, additional, Barisoni, Laura, additional, Gillespie, Brenda, additional, Gipson, Deb, additional, Hicken, Maggie, additional, Kretzler, Matthias, additional, Mariani, Laura, additional, and Guay-Woodford, Lisa M., additional

Published

2023

29. Unraveling the Function of Lemur Tyrosine Kinase 2 Network

Author

Daniel F. Cruz, Carlos M. Farinha, and Agnieszka Swiatecka-Urban

Subjects

LMTK2, PP1, kinase, phosphorylation, signaling pathway, Therapeutics. Pharmacology, RM1-950

Abstract

Lemur Tyrosine Kinase 2 (LMTK2) is a recently cloned transmembrane protein, actually a serine/threonine kinase named after the Madagascar primate lemur due to the long intracellular C-terminal tail. LMTK2 is relatively little known, compared to other kinases but its role has been increasingly recognized. Published data show that LMTK2 regulates key cellular events, including endocytic trafficking, nerve growth factor signaling, apoptosis, and Cl− transport. Abnormalities in the expression and function of LMTK2 are associated with human disease, such as neurodegeneration, cancer and infertility. We summarized the current state of knowledge on LMTK2 structure, regulation, interactome, intracellular localization, and tissue expression and point out future research directions to better understand the role of LMTK2.

Published

2019

30. A circular RNA regulates ion conductance in cystic fibrosis bronchial epithelium

Author

C De Santi, K Hurley, A Swiatecka-Urban, and C Greene

Published

2023

31. Age of Onset and Disease Course in Biopsy-Proven Minimal Change Disease: An Analysis From the Cure Glomerulopathy Network

Author

Chen, Dhruti P., primary, Helmuth, Margaret E., additional, Smith, Abigail R., additional, Canetta, Pietro A., additional, Ayoub, Isabelle, additional, Mucha, Krzysztof, additional, Kallash, Mahmoud, additional, Kopp, Jeffrey, additional, Gbadegesin, Rasheed, additional, Gillespie, Brenda W., additional, Greenbaum, Larry A., additional, Parekh, Rulan S., additional, Hunley, Tray, additional, Sperati, C. John, additional, Selewski, David T., additional, Kidd, Jason, additional, Chishti, Aftab, additional, Reidy, Kimberly, additional, Mottl, Amy, additional, Gipson, Debbie S., additional, Srivastava, Tarak, additional, Twombley, Katherine E., additional, Ahn, Wooin, additional, Appel, Gerald, additional, Appelbaum, Paul, additional, Babayev, Revekka, additional, Bomback, Andrew, additional, Chan, Brenda, additional, D'Agati, Vivette Denise, additional, Dogra, Samitri, additional, Fernandez, Hilda, additional, Gharavi, Ali, additional, Hines, William, additional, Husain, Syed Ali, additional, Jain, Namrata, additional, Kiryluk, Krzysztof, additional, Lin, Fangming, additional, Marasa, Maddalena, additional, Markowitz, Glen, additional, Rasouly, Hila Milo, additional, Mohan, Sumit, additional, Mongera, Nicola, additional, Nestor, Jordan, additional, Nickolas, Thomas, additional, Radhakrishnan, Jai, additional, Rao, Maya, additional, Sanna-Cherchi, Simone, additional, Shirazian, Shayan, additional, Stokes, Michael Barry, additional, Uy, Natalie, additional, Valeri, Anthony, additional, Vena, Natalie, additional, Foroncewicz, Bartosz, additional, Moszczuk, Barbara, additional, Perkowska-Ptasińska, Agnieszka, additional, Ghiggeri Francesca Lugani, Gian Marco, additional, Ambruzs, Josephine, additional, Liapis, Helen, additional, Baracco, Rossana, additional, Jain, Amrish, additional, Ashoor, Isa, additional, Aviles, Diego, additional, Ahn, Sun-Young, additional, Devarajan, Prasad, additional, Erkan, Elif, additional, Claes, Donna, additional, Stone, Hillarey, additional, Mason, Sherene, additional, Gomez-Mendez, Liliana, additional, Wang, Chia-shi, additional, Yin, Hong (Julie), additional, Cai, Yi, additional, Jens, Goebel, additional, Steinke, Julia, additional, Weaver, Donald, additional, Lane, Jerome, additional, Cramer, Carl, additional, Pan, Cindy, additional, Paloian, Neil, additional, Sreedharan, Rajasree, additional, Bowers, Corinna, additional, Dreher, Mary, additional, Mahan, John, additional, Sharpe, Samantha, additional, Smoyer, William, additional, Al-Uzri, Amira, additional, Iragorri, Sandra, additional, Khalid, Myda, additional, Belsha, Craig, additional, Alge, Joseph, additional, Braun, Michael, additional, Gomez, A.C., additional, Wenderfer, Scott, additional, Vasylyeva, Tetyana, additional, Feig, Daniel, additional, Fuentes, Gabriel Cara, additional, Hannah, Melisha, additional, Nester, Carla, additional, Klein, Jon, additional, Katsoufis, Chryso, additional, Seeherunvong, Wacharee, additional, Rheault, Michelle, additional, Wong, Craig, additional, Mathews, Nisha, additional, Barcia, John, additional, Swiatecka-Urban, Agnes, additional, Bartosh, Sharon, additional, Dharnidharka, Vikas, additional, Gaut, Joseph, additional, Laurin, Louis-Philippe, additional, Royal, Virginie, additional, Achanti, Anand, additional, Budisavljevic, Milos, additional, Self, Sally, additional, Ghossein, Cybele, additional, Peleg, Yonatan, additional, Wadhwani, Shikha, additional, Almaani, Salem, additional, Nadasdy, Tibor, additional, Parikh, Samir, additional, Rovin, Brad, additional, Chang, Anthony, additional, Fatima, Huma, additional, Julian, Bruce, additional, Novak, Jan, additional, Renfrow, Matthew, additional, Rizk, Dana, additional, Derebail, Vimal, additional, Falk, Ronald, additional, Gibson, Keisha, additional, Glenn, Dorey, additional, Hogan, Susan, additional, Jain, Koyal, additional, Jennette, J. Charles, additional, Poulton, Caroline, additional, Saha, Manish Kanti, additional, Fogo, Agnes, additional, Sanghani, Neil, additional, Muthusamy, Selvaraj, additional, Schelling, Jeffrey, additional, Hou, Jean, additional, Lemley, Kevin, additional, Mika, Warren, additional, Russo, Pierre, additional, Denburg, Michelle, additional, Kogon, Amy, additional, Meyers, Kevin, additional, Pradhan, Madhura, additional, Matar, Raed Bou, additional, O'Toole, John, additional, Sedor, John, additional, Sethna, Christine, additional, Vento, Suzanne, additional, Atta, Mohamed, additional, Bagnasco, Serena, additional, Neu, Alicia, additional, Adler, Sharon, additional, Dai, Tiane, additional, Dukkipati, Ram, additional, Fervenza, Fernando, additional, Sethi, Sanjeev, additional, Kaskel, Frederick, additional, Brathwaite, Kaye, additional, Weisstuch, Joseph, additional, Wu, Ming, additional, Zhdanova, Olga, additional, Heymann, Jurgen, additional, Waldman, Meryl, additional, Winkler, Cheryl, additional, Tuttle, Katherine, additional, Krissberg, Jill, additional, Lafayette, Richard, additional, Fahmeedah, Kamal, additional, Talley, Elizabeth, additional, Hladunewich, Michelle, additional, Avila-Casado, Carmen, additional, Cattran, Daniel, additional, Heather, Reich, additional, Boll, Philip, additional, Drexler, Yelena, additional, Fornoni, Alessia, additional, Gipson, Patrick, additional, Hodgin, Jeffrey, additional, Oliverio, Andrea, additional, Hogan, Jon, additional, Holzman, Lawrence, additional, Palmer, Matthew, additional, Coppock, Gaia, additional, Abromovitz, Blaise, additional, Mortiz, Michael, additional, Alpers, Charles, additional, Jefferson, J. Ashley, additional, Brown, Elizabeth, additional, Sambandam, Kamal, additional, Roehm, Bethany, additional, Nast, Cynthia, additional, Barisoni, Laura, additional, Kretzler, Matthias, additional, Mariani, Laura, additional, and Guay-Woodford, Lisa M., additional

Published

2023

32. TGF-β1 Inhibition of ACE2 Mediated by miRNA Uncovers Novel Mechanism of SARS-CoV-2 Pathogenesis

Author

Hejenkowska, Ewelina D., primary, Mitash, Nilay, additional, Donovan, Joshua E., additional, Chandra, Anvita, additional, Bertrand, Carol, additional, De Santi, Chiara, additional, Greene, Catherine M., additional, Mu, Fangping, additional, and Swiatecka-Urban, Agnieszka, additional

Published

2023

33. Tubulointerstitial nephritis: diagnosis, treatment, and monitoring

Author

Joyce, Emily, Glasner, Paulina, Ranganathan, Sarangarajan, and Swiatecka-Urban, Agnieszka

Subjects

Nephritis -- Diagnosis -- Care and treatment, Health

Abstract

Tubulointerstitial nephritis (TIN) is a frequent cause of acute kidney injury (AKI) that can lead to chronic kidney disease (CKD). TIN is associated with an immune-mediated infiltration of the kidney interstitium by inflammatory cells, which may progress to fibrosis. Patients often present with nonspecific symptoms, which can lead to delayed diagnosis and treatment of the disease. Etiology can be drug-induced, infectious, idiopathic, genetic, or related to a systemic inflammatory condition such as tubulointerstitial nephritis and uveitis (TINU) syndrome, inflammatory bowel disease, or immunoglobulin G4 (IgG4)-associated immune complex multiorgan autoimmune disease (MAD). It is imperative to have a high clinical suspicion for TIN in order to remove potential offending agents and treat any associated systemic diseases. Treatment is ultimately dependent on underlying etiology. While there are no randomized controlled clinical trials to assess treatment choice and efficacy in TIN, corticosteroids have been a mainstay of therapy, and recent studies have suggested a possible role for mycophenolate mofetil. Urinary biomarkers such as alpha1- and beta2-microglobulin may help diagnose and monitor disease activity in TIN. Screening for TIN should be implemented in children with inflammatory bowel disease, uveitis, or IgG4-associated MAD., Author(s): Emily Joyce [sup.1] , Paulina Glasner [sup.2] , Sarangarajan Ranganathan [sup.3] , Agnieszka Swiatecka-Urban [sup.1] Author Affiliations: (1) grid.21925.3d, 0000000419369000, Division of Nephrology, Department of Pediatrics, Children's Hospital of [...]

Published

2017

34. The Role of MicroRNA in the Airway Surface Liquid Homeostasis

Author

Nilay Mitash, Joshua E. Donovan, and Agnieszka Swiatecka-Urban

Subjects

microRNA, airway surface liquid, miRNA-mRNA interaction, airway host defense, ion channels, RNA-induced silencing complex, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Mucociliary clearance, mediated by a coordinated function of cilia bathing in the airway surface liquid (ASL) on the surface of airway epithelium, protects the host from inhaled pathogens and is an essential component of the innate immunity. ASL is composed of the superficial mucus layer and the deeper periciliary liquid. Ion channels, transporters, and pumps coordinate the transcellular and paracellular movement of ions and water to maintain the ASL volume and mucus hydration. microRNA (miRNA) is a class of non-coding, short single-stranded RNA regulating gene expression by post-transcriptional mechanisms. miRNAs have been increasingly recognized as essential regulators of ion channels and transporters responsible for ASL homeostasis. miRNAs also influence the airway host defense. We summarize the most up-to-date information on the role of miRNAs in ASL homeostasis and host–pathogen interactions in the airway and discuss concepts for miRNA-directed therapy.

Published

2020

35. 397 Mice with F508del CFTR mutation demonstrate early renal inflammation and tubular fibrosis.

Author

Goswami, H., Swiatecka-Urban, A., Harris, W., Stanton, B., and Skopelja-Gardner, S.

Subjects

*CYSTIC fibrosis transmembrane conductance regulator, *FIBROSIS, *INFLAMMATION, *MICE

Published

2024

36. 433 Differential small ribonucleic acid expression analysis reveals transforming growth factor beta role in SARS-CoV-2 infection of the cystic fibrosis airway

Author

Hejenkowska, E., primary, Mitash, N., additional, Donovan, J., additional, Mu, F., additional, Beer Stolz, D., additional, Bertrand, C., additional, and Swiatecka-Urban, A., additional

Published

2022

37. 440 Novel mechanism of transforming growth factor beta-1 signaling in human bronchial epithelia

Author

Donovan, J., primary, Cruz, D., additional, Hejenkowska, E., additional, Mu, F., additional, Farinha, C., additional, and Swiatecka-Urban, A., additional

Published

2022

38. Circular RNA expression in cystic fibrosis bronchial epithelium

Author

De Santi, C, primary, Hurley, K, additional, Swiatecka-Urban, A, additional, and Greene, C, additional

Published

2022

39. Editorial: Nephrotic Syndrome in Pediatric Patients

Author

Robert P. Woroniecki, Agnieszka Swiatecka-Urban, and Frederick J. Kaskel

Subjects

podocytopathy, APOL1, FSGS, calcineurin inhibitor, outcomes, edema, Pediatrics, RJ1-570

Published

2017

40. Transforming Growth Factor-β1 Selectively Recruits microRNAs to the RNA-Induced Silencing Complex and Degrades CFTR mRNA under Permissive Conditions in Human Bronchial Epithelial Cells

Author

Nilay Mitash, Fangping Mu, Joshua E. Donovan, Michael M. Myerburg, Sarangarajan Ranganathan, Catherine M. Greene, and Agnieszka Swiatecka-Urban

Subjects

cystic fibrosis, cftr, tgf-β1, microrna, primary human bronchial epithelial cells, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Mutations in the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) gene lead to cystic fibrosis (CF). The most common mutation F508del inhibits folding and processing of CFTR protein. FDA-approved correctors rescue the biosynthetic processing of F508del-CFTR protein, while potentiators improve the rescued CFTR channel function. Transforming growth factor (TGF-β1), overexpressed in many CF patients, blocks corrector/potentiator rescue by inhibiting CFTR mRNA in vitro. Increased TGF-β1 signaling and acquired CFTR dysfunction are present in other lung diseases. To study the mechanism of TGF-β1 repression of CFTR, we used molecular, biochemical, and functional approaches in primary human bronchial epithelial cells from over 50 donors. TGF-β1 destabilized CFTR mRNA in cells from lungs with chronic disease, including CF, and impaired F508del-CFTR rescue by new-generation correctors. TGF-β1 increased the active pool of selected micro(mi)RNAs validated as CFTR inhibitors, recruiting them to the RNA-induced silencing complex (RISC). Expression of F508del-CFTR globally modulated TGF-β1-induced changes in the miRNA landscape, creating a permissive environment required for degradation of F508del-CFTR mRNA. In conclusion, TGF-β1 may impede the full benefit of corrector/potentiator therapy in CF patients. Studying miRNA recruitment to RISC under disease-specific conditions may help to better characterize the miRNAs utilized by TGF-β1 to destabilize CFTR mRNA.

Published

2019

41. 433 Differential small ribonucleic acid expression analysis reveals transforming growth factor beta role in SARS-CoV-2 infection of the cystic fibrosis airway

Author

E. Hejenkowska, N. Mitash, J. Donovan, F. Mu, D. Beer Stolz, C. Bertrand, and A. Swiatecka-Urban

Subjects

Pulmonary and Respiratory Medicine, Pediatrics, Perinatology and Child Health

Published

2022

42. Age of Onset and Disease Course in Biopsy-Proven Minimal Change Disease: An Analysis From the Cure Glomerulopathy Network

Author

Dhruti P. Chen, Margaret E. Helmuth, Abigail R. Smith, Pietro A. Canetta, Isabelle Ayoub, Krzysztof Mucha, Mahmoud Kallash, Jeffrey B. Kopp, Rasheed Gbadegesin, Brenda W. Gillespie, Larry A. Greenbaum, Rulan S. Parekh, Tracy E. Hunley, C. John Sperati, David T. Selewski, Jason Kidd, Aftab Chishti, Kimberly Reidy, Amy K. Mottl, Debbie S. Gipson, Tarak Srivastava, Katherine E. Twombley, Wooin Ahn, Gerald Appel, Paul Appelbaum, Revekka Babayev, Andrew Bomback, Brenda Chan, Vivette Denise D’Agati, Samitri Dogra, Hilda Fernandez, Ali Gharavi, William Hines, Syed Ali Husain, Namrata Jain, Krzysztof Kiryluk, Fangming Lin, Maddalena Marasa, Glen Markowitz, Hila Milo Rasouly, Sumit Mohan, Nicola Mongera, Jordan Nestor, Thomas Nickolas, Jai Radhakrishnan, Maya Rao, Simone Sanna-Cherchi, Shayan Shirazian, Michael Barry Stokes, Natalie Uy, Anthony Valeri, Natalie Vena, Bartosz Foroncewicz, Barbara Moszczuk, Agnieszka Perkowska-Ptasińska, Gian Marco Ghiggeri, Francesca Lugani, Josephine Ambruzs, Helen Liapis, Rossana Baracco, Amrish Jain, Isa Ashoor, Diego Aviles, Sun-Young Ahn, Prasad Devarajan, Elif Erkan, Donna Claes, Hillarey Stone, Sherene Mason, Liliana Gomez-Mendez, Chia-shi Wang, Hong Yin, Yi Cai, Goebel Jens, Julia Steinke, Donald Weaver, Jerome Lane, Carl Cramer, Cindy Pan, Neil Paloian, Rajasree Sreedharan, Corinna Bowers, Mary Dreher, John Mahan, Samantha Sharpe, William Smoyer, Amira Al-Uzri, Sandra Iragorri, Myda Khalid, Craig Belsha, Joseph Alge, Michael Braun, A.C. Gomez, Scott Wenderfer, Tetyana Vasylyeva, Daniel Feig, Gabriel Cara Fuentes, Melisha Hannah, Carla Nester, Jon Klein, Chryso Katsoufis, Wacharee Seeherunvong, Michelle Rheault, Craig Wong, Nisha Mathews, John Barcia, Agnes Swiatecka-Urban, Sharon Bartosh, Vikas Dharnidharka, Joseph Gaut, Louis-Philippe Laurin, Virginie Royal, Anand Achanti, Milos Budisavljevic, Sally Self, Cybele Ghossein, Yonatan Peleg, Shikha Wadhwani, Salem Almaani, Tibor Nadasdy, null Samir, null Parikh, Brad Rovin, Anthony Chang, Huma Fatima, Bruce Julian, Jan Novak, Matthew Renfrow, Dana Rizk, Vimal Derebail, Ronald Falk, Keisha Gibson, Dorey Glenn, Susan Hogan, Koyal Jain, J. Charles Jennette, Caroline Poulton, Manish Kanti Saha, Agnes Fogo, Neil Sanghani, Selvaraj Muthusamy, Jeffrey Schelling, Jean Hou, Kevin Lemley, Warren Mika, Pierre Russo, Michelle Denburg, Amy Kogon, Kevin Meyers, Madhura Pradhan, Raed Bou Matar, John O’Toole, John Sedor, Christine Sethna, Suzanne Vento, Mohamed Atta, Serena Bagnasco, Alicia Neu, Sharon Adler, Tiane Dai, Ram Dukkipati, Fernando Fervenza, Sanjeev Sethi, Frederick Kaskel, Kaye Brathwaite, Joseph Weisstuch, Ming Wu, Olga Zhdanova, Jurgen Heymann, Meryl Waldman, Cheryl Winkler, Katherine Tuttle, Jill Krissberg, Richard Lafayette, Kamal Fahmeedah, Elizabeth Talley, Michelle Hladunewich, Carmen Avila-Casado, Daniel Cattran, Reich Heather, Philip Boll, Yelena Drexler, Alessia Fornoni, Patrick Gipson, Jeffrey Hodgin, Andrea Oliverio, Jon Hogan, Lawrence Holzman, Matthew Palmer, Gaia Coppock, Blaise Abromovitz, Michael Mortiz, Charles Alpers, J. Ashley Jefferson, Elizabeth Brown, Kamal Sambandam, Bethany Roehm, Bruce Robinson, Cynthia Nast, Laura Barisoni, Matthias Kretzler, Laura Mariani, and Lisa M. Guay-Woodford

Subjects

Nephrology

Abstract

Adolescent- and adult-onset disease minimal change disease (MCD) may have a clinical course distinct from childhood-onset disease. We characterized the course of children and adults with MCD in the Cure Glomerulopathy Network (CureGN) and assessed predictors of rituximab response.Prospective, multicenter, observational study.CureGN participants with proven MCD on biopsy.Age at disease onset. Initiation of RAAS blockade and immunosuppression including rituximab during the study period.Relapse and remission, change in eGFR and kidney failure.Remission and relapse probabilities are estimated using Kaplan-Meier curves and gap time recurrent event models. Linear regression models were used for the outcome of change in estimated glomerular filtration rate (eGFR). Cox proportional hazards models were used to estimate the association between rituximab administration and remission.304 childhood (≤12 years old), 49 adolescent (13-17 years old), and 201 adult onset (≥18 years) participants were included with 2.7-3.2 years of follow-up after enrollment. Children had longer time to biopsy (238 days vs. 23 in adolescents, and 36 in adults, p0.001) and were more likely to have received therapy prior to biopsy. Children were more likely to be treated with immunosuppression but not RAAS blockade. The rate of relapse was higher in childhood-onset versus adult-onset participants (hazard ratio (HR) 1.69 (95% confidence interval (CI) 1.29-2.21)). The probability of remission was also higher in childhood-onset disease (HR 1.33 (95%CI 1.02-1.72)). eGFR loss in all groups was minimal. Children were more likely to remit after rituximab than adolescents and adults (adjusted HR 2.1, p=0.003). Across all groups, glucocorticoid-sensitivity was associated with a greater likelihood of achieving complete remission after rituximab (adjusted HR 2.62, p=0.002).CureGN was limited to biopsy-proven disease. Comparisons of childhood to non-childhood cases of MCD may be subject to selection bias, given that childhood cases who are biopsied may be limited to those patients who are least responsive to initial therapy.Among patients with MCD who underwent kidney biopsy, there were differences in the course (relapse and remission) of childhood-onset compared to adolescent and adult-onset disease, as well as rituximab response.

Published

2022

43. Circular RNA expression in cystic fibrosis bronchial epithelium

Author

C De Santi, K Hurley, A Swiatecka-Urban, and C Greene

Published

2022

44. Circular RNA expression in cystic fibrosis bronchial epithelium

Author

De Santi, Chiara, primary, Hurley, Killian, additional, Swiatecka-Urban, Agnieszka, additional, and Greene, Catherine, additional

Published

2022

45. Persistent Disease Activity in Patients With Long-Standing Glomerular Disease

Author

Elisa Delbarba, Maddalena Marasa, Pietro A. Canetta, Stacy E. Piva, Debanjana Chatterjee, Byum Hee Kil, Xueru Mu, Keisha L. Gibson, Michelle A. Hladunewich, Jonathan J. Hogan, Bruce A. Julian, Jason M. Kidd, Louis-Philippe Laurin, Patrick H. Nachman, Michelle N. Rheault, Dana V. Rizk, Neil S. Sanghani, Howard Trachtman, Scott E. Wenderfer, Ali G. Gharavi, Andrew S. Bomback, Wooin Ahn, Gerald B. Appel, Revekka Babayev, Ibrahim Batal, Eric Brown, Eric S. Campenot, Pietro Canetta, Brenda Chan, Vivette D. D’Agati, Hilda Fernandez, Bartosz Foroncewicz, Gian Marco Ghiggeri, William H. Hines, Namrata G. Jain, Krzysztof Kiryluk, Wai L. Lau, Fangming Lin, Francesca Lugani, Glen Markowitz, Sumit Mohan, Krzysztof Mucha, Thomas L. Nickolas, Stacy Piva, Jai Radhakrishnan, Maya K. Rao, Simone Sanna-Cherchi, Dominick Santoriello, Michael B. Stokes, Natalie Yu, Anthony M. Valeri, Ronald Zviti, Larry A. Greenbaum, William E. Smoyer, Amira Al-Uzri, Isa Ashoor, Diego Aviles, Rossana Baracco, John Barcia, Sharon Bartosh, Craig Belsha, Corinna Bowers, Michael C. Braun, Aftab Chishti, Donna Claes, Carl Cramer, Keefe Davis, Elif Erkan, Daniel Feig, Michael Freundlich, Rasheed Gbadegesin, Melisha Hanna, Guillermo Hidalgo, Tracy E. Hunley, Amrish Jain, Mahmoud Kallash, Myda Khalid, Jon B. Klein, Jerome C. Lane, John Mahan, Nisha Mathews, Carla Nester, Cynthia Pan, Larry Patterson, Hiren Patel, Adelaide Revell, Cynthia Silva, Rajasree Sreedharan, Tarak Srivastava, Julia Steinke, Katherine Twombley, Tetyana L. Vasylyeva, Donald J. Weaver, Craig S. Wong, Salem Almaani, Isabelle Ayoub, Milos Budisavljevic, Vimal Derebail, Huma Fatima, Ronald Falk, Agnes Fogo, Todd Gehr, Keisha Gibson, Dorey Glenn, Raymond Harris, Susan Hogan, Koyal Jain, J. Charles Jennette, Bruce Julian, Jason Kidd, H. Davis Massey, Amy Mottl, Patrick Nachman, Tibor Nadasdy, Jan Novak, Samir Parikh, Vincent Pichette, Caroline Poulton, Thomas Brian Powell, Matthew Renfrow, Dana Rizk, Brad Rovin, Virginie Royal, Manish Saha, Neil Sanghani, Sally Self, Sharon Adler, Charles Alpers, Raed Bou Matar, Elizabeth Brown, Daniel Cattran, Michael Choi, Katherine M. Dell, Ram Dukkipati, Fernando C. Fervenza, Alessia Fornoni, Crystal Gadegbeku, Patrick Gipson, Leah Hasely, Sangeeta Hingorani, Michelle Hladunewich, Jonathan Hogan, Lawrence B. Holzman, J. Ashley Jefferson, Kenar Jhaveri, Duncan B. Johnstone, Frederick Kaskel, Amy Kogan, Jeffrey Kopp, Richard Lafayette, Kevin V. Lemley, Laura Malaga-Dieguez, Kevin Meyers, Alicia Neu, Michelle Marie O’Shaughnessy, John F. O’Toole, Rulan Parekh, Heather Reich, Kimberly Reidy, Helbert Rondon, Kamalanathan K. Sambandam, John R. Sedor, David T. Selewski, Christine B. Sethna, Jeffrey Schelling, John C. Sperati, Agnes Swiatecka-Urban, Katherine R. Tuttle, Joseph Weisstuch, Suzanne Vento, Olga Zhdanova, Brenda Gillespie, Debbie S. Gipson, Peg Hill-Callahan, Margaret Helmuth, Emily Herreshoff, Matthias Kretzler, Chrysta Lienczewski, Sarah Mansfield, Laura Mariani, Cynthia C. Nast, Bruce M. Robinson, Jonathan Troost, Matthew Wladkowski, Jarcy Zee, Dawn Zinsser, and Lisa M. Guay-Woodford

Subjects

medicine.medical_specialty, glomerulonephropathy, glomerular disease, 030232 urology & nephrology, Disease, 030204 cardiovascular system & hematology, Nephropathy, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Focal segmental glomerulosclerosis, Membranous nephropathy, Clinical Research, Internal medicine, Biopsy, medicine, Minimal change disease, focal segmental glomerulosclerosis, Creatinine, medicine.diagnostic_test, business.industry, membranous nephropathy, IgA nephropathy, medicine.disease, minimal change disease, chemistry, Nephrology, Cohort, business

Abstract

Introduction Glomerular diseases are characterized by variable disease activity over many years. We aimed to analyze the relationship between clinical disease activity and duration of glomerular disease. Methods Disease activity in adults with chronic minimal change disease, focal segmental glomerulosclerosis, membranous nephropathy, and IgA nephropathy (IgAN; first diagnostic biopsy >5 years before enrollment; Of Longstanding Disease [OLD] cohort, n = 256) followed at Columbia University Medical Center (CUMC), was compared with disease activity of an internal and external cohort of patients with first diagnostic biopsy, Graphical abstract

Published

2020

46. Racial and Ethnic Disparities in Acute Care Utilization Among Patients With Glomerular Disease

Author

Jill R. Krissberg, Michelle M. O’Shaughnessy, Abigail R. Smith, Margaret E. Helmuth, Salem Almaani, Diego H. Aviles, Kaye E. Brathwaite, Yi Cai, Daniel Cattran, Rasheed Gbadegesin, Dorey A. Glenn, Larry A. Greenbaum, Sandra Iragorri, Koyal Jain, Myda Khalid, Jason Kidd, Jeffrey Kopp, Richard Lafayette, Jerome C. Lane, Francesca Lugani, Jordan G. Nestor, Rulan S. Parekh, Kimberly Reidy, David T. Selewski, Christine B. Sethna, C. John Sperati, Katherine Tuttle, Katherine Twombley, Tetyana L. Vasylyeva, Donald J. Weaver, Scott E. Wenderfer, Keisha Gibson, Wooin Ahn, Gerald Appel, Paul Appelbaum, Revekka Babayev, Andrew Bomback, Eric Brown, Pietro Canetta, Lucrezia Carlassara, Brenda Chan, Vivette Denise D’Agati, Samitri Dogra, Hilda Fernandez, Ali Gharavi, William Hines, Syed Ali Husain, Krzysztof Kiryluk, Fangming Lin, Maddalena Marasa, Glen Markowitz, Hila Milo Rasouly, Sumit Mohan, Nicola Mongera, Thomas Nickolas, Jai Radhakrishnan, Maya Rao, Simone Sanna-Cherchi, Shayan Shirazian, Michael Barry Stokes, Natalie Uy, Anthony Valeri, Natalie Vena, Bartosz Foroncewicz, Barbara Moszczuk, Krzysztof Mucha, Agnieszka Perkowska-Ptasińska, Gian Marco Ghiggeri, Josephine Ambruzs, Helen Liapis, Rossana Baracco, Amrish Jain, Isa Ashoor, Tarak Srivastava, Sun-Young Ahn, Prasad Devarajan, Elif Erkan, Donna Claes, Hillarey Stone, Sherene Mason, Cynthia Silva, Liliana Gomez-Mendez, Chia-shi Wang, Hong (Julie) Yin, Goebel Jens, Julia Steinke, Carl Cramer, Cindy Pan, Rajasree Sreedharan, Corinna Bowers, Mary Dreher, Mahmoud Kallash, John Mahan, Samantha Sharpe, William Smoyer, Amira Al-Uzri, Craig Belsha, Michael Braun, A.C. Gomez, Daniel Feig, Gabriel Cara Fuentes, Melisha Hannah, Carla Nester, Aftab Chishti, Jon Klein, Chryso Katsoufis, Wacharee Seeherunvong, Michelle Rheault, Craig Wong, Nisha Mathews, John Barcia, Agnes Swiatecka-Urban, Sharon Bartosh, Tracy Hunley, Vikas Dharnidharka, Joseph Gaut, Louis-Philippe Laurin, Virginie Royal, Anand Achanti, Milos Budisavljevic, Sally Self, Cybele Ghossein, Shikha Wadhwani, Isabelle Ayoub, Tibor Nadasdy, Samir Parikh, Brad Rovin, Anthony Chang, Huma Fatima, Jan Novak, Matthew Renfrow, Dana Rizk, Dhruti Chen, Vimal Derebail, Ronald Falk, Susan Hogan, J. Charles Jennette, Amy Mottl, Caroline Poulton, Manish Kanti Saha, Agnes Fogo, Neil Sanghani, Hugh Massey, Selvaraj Muthusamy, Santhi Ganesan, Agustin Gonzalez-Vicente, Jeffrey Schelling, Jean Hou, Kevin Lemley, Warren Mika, Pierre Russo, Michelle Denburg, Amy Kogon, Kevin Meyers, Madhura Pradhan, Raed Bou Matar, John O’Toole, John Sedor, Serena Bagnasco, Alicia Neu, Sharon Adler, Tiane Dai, Ram Dukkipati, Fernando Fervenza, Sanjeev Sethi, Frederick Kaskel, Suzanne Vento, Joseph Weisstuch, Ming Wu, Olga Zhdanova, Jurgen Heymann, Meryl Waldman, Cheryl Winkler, Michelle Hladunewich, Carmen Avila-Casado, Reich Heather, Philip Boll, Yelena Drexler, Alessia Fornoni, Patrick Gipson, Jeffrey Hodgin, Andrew Oliverio, Jon Hogan, Lawrence Holzman, Matthew Palmer, Blaise Abromovitz, Michael Mortiz, Charles Alpers, J. Ashley Jefferson, Elizabeth Brown, Kamal Sambandam, Bruce Robinson, Cynthia Nast, Laura Barisoni, Brenda Gillespie, Deb Gipson, Maggie Hicken, Matthias Kretzler, Laura Mariani, and Lisa M. Guay-Woodford

Subjects

Nephrology

Abstract

The effects of race, ethnicity, socioeconomic status (SES), and disease severity on acute care utilization in patients with glomerular disease are unknown.Prospective cohort study.1,456 adults and 768 children with biopsy-proven glomerular disease enrolled in the Cure Glomerulonephropathy (CureGN) cohort.Race and ethnicity as a participant-reported social factor.Acute care utilization defined as hospitalizations or emergency department visits.Multivariable recurrent event proportional rate models were used to estimate associations between race and ethnicity and acute care utilization.Black or Hispanic participants had lower SES and more severe glomerular disease than White or Asian participants. Acute care utilization rates were 45.6, 29.5, 25.8, and 19.2 per 100 person-years in Black, Hispanic, White, and Asian adults, respectively, and 55.8, 42.5, 40.8, and 13.0, respectively, for children. Compared with the White race (reference group), Black race was significantly associated with acute care utilization in adults (rate ratio [RR], 1.76 [95% CI, 1.37-2.27]), although this finding was attenuated after multivariable adjustment (RR, 1.31 [95% CI, 1.03-1.68]). Black race was not significantly associated with acute care utilization in children; Asian race was significantly associated with lower acute care utilization in children (RR, 0.32 [95% CI 0.14-0.70]); no significant associations between Hispanic ethnicity and acute care utilization were identified.We used proxies for SES and lacked direct information on income, household unemployment, or disability.Significant differences in acute care utilization rates were observed across racial and ethnic groups in persons with prevalent glomerular disease, although many of these difference were explained by differences in SES and disease severity. Measures to combat socioeconomic disadvantage in Black patients and to more effectively prevent and treat glomerular disease are needed to reduce disparities in acute care utilization, improve patient wellbeing, and reduce health care costs.

Published

2022

47. 440 Novel mechanism of transforming growth factor beta-1 signaling in human bronchial epithelia

Author

J. Donovan, D. Cruz, E. Hejenkowska, F. Mu, C. Farinha, and A. Swiatecka-Urban

Subjects

Pulmonary and Respiratory Medicine, Pediatrics, Perinatology and Child Health

Published

2022

48. Membrane trafficking in podocyte health and disease

Author

Swiatecka-Urban, Agnieszka

Subjects

Cellular signal transduction -- Physiological aspects -- Genetic aspects -- Research, Epithelial cells -- Physiological aspects -- Genetic aspects -- Research, Kidney diseases -- Development and progression -- Genetic aspects -- Research, Health

Abstract

Podocytes are highly specialized epithelial cells localized in the kidney glomerulus. The distinct cell signaling events and unique cytoskeletal architecture tailor podocytes to withstand changes in hydrostatic pressure during glomerular filtration. Alteration of glomerular filtration leads to kidney disease and frequently manifests with proteinuria. It has been increasingly recognized that cell signaling and cytoskeletal dynamics are coupled more tightly to membrane trafficking than previously thought. Membrane trafficking coordinates the cross-talk between protein networks and signaling cascades in a spatially and temporally organized fashion and may be viewed as a communication highway between the cell exterior and interior. Membrane trafficking involves transport of cargo from the plasma membrane to the cell interior (i.e., endocytosis) followed by cargo trafficking to lysosomes for degradation or to the plasma membrane for recycling. Yet, recent studies indicate that the conventional classification does not fully reflect the complex and versatile nature of membrane trafficking. While the increasing complexity of elaborate protein scaffolds and signaling cascades is being recognized in podocytes, the role of membrane trafficking is less well understood. This review will focus on the role of membrane trafficking in podocyte health and disease. Keywords Podocyte * Membrane trafficking * Endocytosis * Recycling * Cytoskeleton * Proteinuria signaling * Glomerular slit diaphragm, Membrane trafficking All living cells process information by trafficking cargo, such as extracellular ligands, microorganisms, nutrients, transmembrane proteins and lipids from the plasma membrane to endocytic vesicles (i.e., endocytosis). A [...]

Published

2013

49. Steroid-Sensitive Nephrotic Syndrome

Author

Agnieszka Swiatecka-Urban, Patrick Niaudet, Arvind Bagga, and Kazumoto Iijima

Subjects

medicine.medical_specialty, Endocrinology, Steroid-sensitive nephrotic syndrome, business.industry, Internal medicine, Medicine, business

Published

2021

50. Tgf-β1 inhibits Cftr biogenesis and prevents functional rescue of ΔF508-Cftr in primary differentiated human bronchial epithelial cells.

Author

Steven M Snodgrass, Kristine M Cihil, Pamela K Cornuet, Michael M Myerburg, and Agnieszka Swiatecka-Urban

Subjects

Medicine, Science

Abstract

CFTR is an integral transmembrane glycoprotein and a cAMP-activated Cl(-) channel. Mutations in the CFTR gene lead to Cystic Fibrosis (CF)-an autosomal recessive disease with majority of the morbidity and mortality resulting from airway infection, inflammation, and fibrosis. The most common disease-associated mutation in the CFTR gene-deletion of Phe508 (ΔF508) leads to a biosynthetic processing defect of CFTR. Correction of the defect and delivery of ΔF508-CFTR to the cell surface has been highly anticipated as a disease modifying therapy. Compared to promising results in cultured cell this approach was much less effective in CF patients in an early clinical trial. Although the cause of failure to rescue ΔF508-CFTR in the clinical trial has not been determined, presence of factor(s) that interfere with the rescue in vivo could be considered. The cytokine TGF-β1 is frequently elevated in CF patients. TGF-β1 has pleiotropic effects in different disease models and genetic backgrounds and little is known about TGF-β1 effects on CFTR in human airway epithelial cells. Moreover, there are no published studies examining TGF-β1 effects on the functional rescue of ΔF508-CFTR. Here we found that TGF-β1 inhibits CFTR biogenesis by reducing mRNA levels and protein abundance in primary differentiated human bronchial epithelial (HBE) cells from non-CF individuals. TGF-β1 inhibits CFTR biogenesis without compromising the epithelial phenotype or integrity of HBE cells. TGF-β1 also inhibits biogenesis and impairs the functional rescue of ΔF508-CFTR in HBE cells from patients homozygous for the ΔF508 mutation. Our data indicate that activation of TGF-β1 signaling may inhibit CFTR function in non-CF individuals and may interfere with therapies directed at correcting the processing defect of ΔF508-CFTR in CF patients.

Published

2013