Your search keyword '"Comhair, Suzy"' showing total 679 results

1. Utility of eosinophil peroxidase as a biomarker of eosinophilic inflammation in asthma

Author

Tang, Monica, Charbit, Annabelle R., Johansson, Mats W., Jarjour, Nizar N., Denlinger, Loren C., Raymond, Wilfred W., Peters, Michael C., Dunican, Eleanor M., Castro, Mario, Sumino, Kaharu, Erzurum, Serpil C., Comhair, Suzy A., Moore, Wendy C., Levy, Bruce D., Israel, Elliot, Phipatanakul, Wanda, Phillips, Brenda R., Mauger, David T., Bleecker, Eugene R., Wenzel, Sally E., Fajt, Merritt L., Woodruff, Prescott G., Hastie, Annette T., and Fahy, John V.

Published

2024

2. A genetic association study of circulating coagulation factor VIII and von Willebrand factor levels

Author

Abe, Namiko, Abecasis, Gonçalo, Aguet, Francois, Albert, Christine, Almasy, Laura, Alonso, Alvaro, Ament, Seth, Anderson, Peter, Anugu, Pramod, Applebaum-Bowden, Deborah, Ardlie, Kristin, Arking, Dan, Arnett, Donna K, Ashley-Koch, Allison, Aslibekyan, Stella, Assimes, Tim, Auer, Paul, Avramopoulos, Dimitrios, Ayas, Najib, Balasubramanian, Adithya, Barnard, John, Barnes, Kathleen, Barr, R. Graham, Barron-Casella, Emily, Barwick, Lucas, Beaty, Terri, Beck, Gerald, Becker, Diane, Becker, Lewis, Beer, Rebecca, Beitelshees, Amber, Benjamin, Emelia, Benos, Takis, Bezerra, Marcos, Bielak, Larry, Bis, Joshua, Blackwell, Thomas, Blangero, John, Blue, Nathan, Boerwinkle, Eric, Bowden, Donald W., Bowler, Russell, Brody, Jennifer, Broeckel, Ulrich, Broome, Jai, Brown, Deborah, Bunting, Karen, Burchard, Esteban, Bustamante, Carlos, Buth, Erin, Cade, Brian, Cardwell, Jonathan, Carey, Vincent, Carrier, Julie, Carson, April P., Carty, Cara, Casaburi, Richard, Casas Romero, Juan P, Casella, James, Castaldi, Peter, Chaffin, Mark, Chang, Christy, Chang, Yi-Cheng, Chasman, Daniel, Chavan, Sameer, Chen, Bo-Juen, Chen, Wei-Min, Ida Chen, Yii-Der, Cho, Michael, Choi, Seung Hoan, Chuang, Lee-Ming, Chung, Mina, Chung, Ren-Hua, Clish, Clary, Comhair, Suzy, Conomos, Matthew, Cornell, Elaine, Correa, Adolfo, Crandall, Carolyn, Crapo, James, Cupples, L. Adrienne, Curran, Joanne, Curtis, Jeffrey, Custer, Brian, Damcott, Coleen, Darbar, Dawood, David, Sean, Davis, Colleen, Daya, Michelle, de Andrade, Mariza, de las Fuentes, Lisa, de Vries, Paul, DeBaun, Michael, Deka, Ranjan, DeMeo, Dawn, Devine, Scott, Dinh, Huyen, Doddapaneni, Harsha, Duan, Qing, Dugan-Perez, Shannon, Duggirala, Ravi, Durda, Jon Peter, Dutcher, Susan K., Eaton, Charles, Ekunwe, Lynette, El Boueiz, Adel, Ellinor, Patrick, Emery, Leslie, Erzurum, Serpil, Farber, Charles, Farek, Jesse, Fingerlin, Tasha, Flickinger, Matthew, Fornage, Myriam, Franceschini, Nora, Frazar, Chris, Fu, Mao, Fullerton, Stephanie M., Fulton, Lucinda, Gabriel, Stacey, Gan, Weiniu, Gao, Shanshan, Gao, Yan, Gass, Margery, Geiger, Heather, Gelb, Bruce, Geraci, Mark, Germer, Soren, Gerszten, Robert, Ghosh, Auyon, Gibbs, Richard, Gignoux, Chris, Gladwin, Mark, Glahn, David, Gogarten, Stephanie, Gong, Da-Wei, Goring, Harald, Graw, Sharon, Gray, Kathryn J., Grine, Daniel, Gross, Colin, Gu, C. Charles, Guan, Yue, Guo, Xiuqing, Gupta, Namrata, Haessler, Jeff, Hall, Michael, Han, Yi, Hanly, Patrick, Harris, Daniel, Hawley, Nicola L., He, Jiang, Heavner, Ben, Heckbert, Susan, Hernandez, Ryan, Herrington, David, Hersh, Craig, Hidalgo, Bertha, Hixson, James, Hobbs, Brian, Hokanson, John, Hong, Elliott, Hoth, Karin, Hsiung, Chao (Agnes), Hu, Jianhong, Hung, Yi-Jen, Huston, Haley, Hwu, Chii Min, Irvin, Marguerite Ryan, Jackson, Rebecca, Jain, Deepti, Jaquish, Cashell, Johnsen, Jill, Johnson, Andrew, Johnson, Craig, Johnston, Rich, Jones, Kimberly, Kang, Hyun Min, Kaplan, Robert, Kardia, Sharon, Kelly, Shannon, Kenny, Eimear, Kessler, Michael, Khan, Alyna, Khan, Ziad, Kim, Wonji, Kimoff, John, Kinney, Greg, Konkle, Barbara, Kooperberg, Charles, Kramer, Holly, Lange, Christoph, Lange, Ethan, Lange, Leslie, Laurie, Cathy, Laurie, Cecelia, LeBoff, Meryl, Lee, Jiwon, Lee, Sandra, Lee, Wen-Jane, LeFaive, Jonathon, Levine, David, Levy, Dan, Lewis, Joshua, Li, Xiaohui, Li, Yun, Lin, Henry, Lin, Honghuang, Lin, Xihong, Liu, Simin, Liu, Yongmei, Liu, Yu, Loos, Ruth J. F., Lubitz, Steven, Lunetta, Kathryn, Luo, James, Magalang, Ulysses, Mahaney, Michael, Make, Barry, Manichaikul, Ani, Manning, Alisa, Manson, JoAnn, Martin, Lisa, Marton, Melissa, Mathai, Susan, Mathias, Rasika, May, Susanne, McArdle, Patrick, McDonald, Merry-Lynn, McFarland, Sean, McGarvey, Stephen, McGoldrick, Daniel, McHugh, Caitlin, McNeil, Becky, Mei, Hao, Meigs, James, Menon, Vipin, Mestroni, Luisa, Metcalf, Ginger, Meyers, Deborah A, Mignot, Emmanuel, Mikulla, Julie, Min, Nancy, Minear, Mollie, Minster, Ryan L, Mitchell, Braxton D., Moll, Matt, Momin, Zeineen, Montasser, May E., Montgomery, Courtney, Muzny, Donna, Mychaleckyj, Josyf C, Nadkarni, Girish, Naik, Rakhi, Naseri, Take, Natarajan, Pradeep, Nekhai, Sergei, Nelson, Sarah C., Neltner, Bonnie, Nessner, Caitlin, Nickerson, Deborah, Nkechinyere, Osuji, North, Kari, O'Connell, Jeff, O'Connor, Tim, Ochs-Balcom, Heather, Okwuonu, Geoffrey, Pack, Allan, Paik, David T., Palmer, Nicholette, Pankow, James, Papanicolaou, George, Parker, Cora, Peloso, Gina, Peralta, Juan Manuel, Perez, Marco, Perry, James, Peters, Ulrike, Peyser, Patricia, Phillips, Lawrence S, Pleiness, Jacob, Pollin, Toni, Post, Wendy, Becker, Julia Powers, Boorgula, Meher Preethi, Preuss, Michael, Psaty, Bruce, Qasba, Pankaj, Qiao, Dandi, Qin, Zhaohui, Rafaels, Nicholas, Raffield, Laura, Rajendran, Mahitha, Ramachandran, Vasan S., Rao, D. C., Rasmussen-Torvik, Laura, Ratan, Aakrosh, Redline, Susan, Reed, Robert, Reeves, Catherine, Regan, Elizabeth, Reiner, Alex, Reupena, Muagututi‘a Sefuiva, Rice, Ken, Rich, Stephen, Robillard, Rebecca, Robine, Nicolas, Roden, Dan, Roselli, Carolina, Rotter, Jerome, Ruczinski, Ingo, Runnels, Alexi, Russell, Pamela, Ruuska, Sarah, Ryan, Kathleen, Sabino, Ester Cerdeira, Saleheen, Danish, Salimi, Shabnam, Salvi, Sejal, Salzberg, Steven, Sandow, Kevin, Sankaran, Vijay G., Santibanez, Jireh, Schwander, Karen, Schwartz, David, Sciurba, Frank, Seidman, Christine, Seidman, Jonathan, Sériès, Frédéric, Sheehan, Vivien, Sherman, Stephanie L., Shetty, Amol, Shetty, Aniket, Hui-Heng Sheu, Wayne, Shoemaker, M. Benjamin, Silver, Brian, Silverman, Edwin, Skomro, Robert, Smith, Albert Vernon, Smith, Jennifer, Smith, Josh, Smith, Nicholas, Smith, Tanja, Smoller, Sylvia, Snively, Beverly, Snyder, Michael, Sofer, Tamar, Sotoodehnia, Nona, Stilp, Adrienne M., Storm, Garrett, Streeten, Elizabeth, Su, Jessica Lasky, Sung, Yun Ju, Sylvia, Jody, Szpiro, Adam, Taliun, Daniel, Tang, Hua, Taub, Margaret, Taylor, Kent D., Taylor, Matthew, Taylor, Simeon, Telen, Marilyn, Thornton, Timothy A., Threlkeld, Machiko, Tinker, Lesley, Tirschwell, David, Tishkoff, Sarah, Tiwari, Hemant, Tong, Catherine, Tracy, Russell, Tsai, Michael, Vaidya, Dhananjay, Van Den Berg, David, VandeHaar, Peter, Vrieze, Scott, Walker, Tarik, Wallace, Robert, Walts, Avram, Wang, Fei Fei, Wang, Heming, Wang, Jiongming, Watson, Karol, Watt, Jennifer, Weeks, Daniel E., Weinstock, Joshua, Weir, Bruce, Weiss, Scott T, Weng, Lu-Chen, Wessel, Jennifer, Willer, Cristen, Williams, Kayleen, Williams, L. Keoki, Wilson, Carla, Wilson, James, Winterkorn, Lara, Wong, Quenna, Wu, Joseph, Xu, Huichun, Yanek, Lisa, Yang, Ivana, Yu, Ketian, Zekavat, Seyedeh Maryam, Zhang, Yingze, Zhao, Snow Xueyan, Zhao, Wei, Zhu, Xiaofeng, Ziv, Elad, Zody, Michael, Zoellner, Sebastian, Lindstrom, Sara, Wang, Lu, Smith, Erin N., Gordon, William, van Hylckama Vlieg, Astrid, Brody, Jennifer A., Pattee, Jack W., Haessler, Jeffrey, Brumpton, Ben M., Chasman, Daniel I., Suchon, Pierre, Chen, Ming-Huei, Turman, Constance, Germain, Marine, Wiggins, Kerri L., MacDonald, James, Braekkan, Sigrid K., Armasu, Sebastian M., Pankratz, Nathan, Jackson, Rabecca D., Nielsen, Jonas B., Giulianini, Franco, Puurunen, Marja K., Ibrahim, Manal, Heckbert, Susan R., Bammler, Theo K., Frazer, Kelly A., McCauley, Bryan M., Taylor, Kent, Pankow, James S., Reiner, Alexander P., Gabrielsen, Maiken E., Deleuze, Jean-François, O'Donnell, Chris J., Kim, Jihye, McKnight, Barbara, Kraft, Peter, Hansen, John-Bjarne, Rosendaal, Frits R., Heit, John A., Psaty, Bruce M., Tang, Weihong, Hveem, Kristian, Ridker, Paul M., Morange, Pierre-Emmanuel, Johnson, Andrew D., Kabrhel, Christopher, AlexandreTrégouët, David, Smith, Nicholas L., de Vries, Paul S., Reventun, Paula, Brown, Michael R., Heath, Adam S., Huffman, Jennifer E., Le, Ngoc-Quynh, Bebo, Allison, Temprano-Sagrera, Gerard, Raffield, Laura M., Ozel, Ayse Bilge, Thibord, Florian, Lewis, Joshua P., Rodriguez, Benjamin A. T., Polasek, Ozren, Yanek, Lisa R., Carrasquilla, German D., Marioni, Riccardo E., Kleber, Marcus E., Trégouët, David-Alexandre, Yao, Jie, Li-Gao, Ruifang, Joshi, Peter K., Trompet, Stella, Martinez-Perez, Angel, Ghanbari, Mohsen, Howard, Tom E., Reiner, Alex P., Arvanitis, Marios, Ryan, Kathleen A., Bartz, Traci M., Rudan, Igor, Faraday, Nauder, Linneberg, Allan, Davies, Gail, Delgado, Graciela E., Klaric, Lucija, Noordam, Raymond, van Rooij, Frank, Curran, Joanne E., Wheeler, Marsha M., Osburn, William O., O'Connell, Jeffrey R., Beswick, Andrew, Kolcic, Ivana, Souto, Juan Carlos, Becker, Lewis C., Hansen, Torben, Doyle, Margaret F., Harris, Sarah E., Moissl, Angela P., Rich, Stephen S., Campbell, Harry, Stott, David J., Soria, Jose Manuel, de Maat, Moniek P. M., Brody, Lawrence C., Auer, Paul L., Ben-Shlomo, Yoav, Hayward, Caroline, Mathias, Rasika A., Kilpeläinen, Tuomas O., Lange, Leslie A., Cox, Simon R., März, Winfried, Rotter, Jerome I., Mook-Kanamori, Dennis O., Wilson, James F., van der Harst, Pim, Jukema, J. Wouter, Ikram, M. Arfan, Desch, Karl C., Sabater-Lleal, Maria, Lowenstein, Charles J., and Morrison, Alanna C.

Published

2024

3. The Precision Interventions for Severe and/or Exacerbation-Prone (PrecISE) Asthma Network: An overview of Network organization, procedures, and interventions

Author

Georas, Steve N, Wright, Rosalind J, Ivanova, Anastasia, Israel, Elliot, LaVange, Lisa M, Akuthota, Praveen, Carr, Tara F, Denlinger, Loren C, Fajt, Merritt L, Kumar, Rajesh, O’Neal, Wanda K, Phipatanakul, Wanda, Szefler, Stanley J, Aronica, Mark A, Bacharier, Leonard B, Burbank, Allison J, Castro, Mario, Alexander, Laura Crotty, Bamdad, Julie, Cardet, Juan Carlos, Comhair, Suzy AA, Covar, Ronina A, DiMango, Emily A, Erwin, Kim, Erzurum, Serpil C, Fahy, John V, Gaffin, Jonathan M, Gaston, Benjamin, Gerald, Lynn B, Hoffman, Eric A, Holguin, Fernando, Jackson, Daniel J, James, John, Jarjour, Nizar N, Kenyon, Nicholas J, Khatri, Sumita, Kirwan, John P, Kraft, Monica, Krishnan, Jerry A, Liu, Andrew H, Liu, Mark C, Marquis, M Alison, Martinez, Fernando, Mey, Jacob, Moore, Wendy C, Moy, James N, Ortega, Victor E, Peden, David B, Pennington, Emily, Peters, Michael C, Ross, Kristie, Sanchez, Maria, Smith, Lewis J, Sorkness, Ronald L, Wechsler, Michael E, Wenzel, Sally E, White, Steven R, Zein, Joe, Zeki, Amir A, Noel, Patricia, Billheimer, Dean, Bleecker, Eugene R, Branch, Emily, Conway, Michelle, Daines, Cori, Deaton, Isaac, Evans, Alexandria, Field, Paige, Francisco, Dave, Hastie, Annette T, Hmieleski, Bob, Krings, Jeffrey O, Liu, Yanqin, Merchen, Janell L, Meyers, Deborah A, Narendran, Nirushan, Peters, Stephen P, Pippins, Anna, Rank, Matthew A, Schunk, Ronald, Skeps, Raymond, Wright, Benjamin, Banzon, Tina M, Bartnikas, Lisa M, Baxi, Sachin N, Betapudi, Vishwanath, Brick, Isabelle, Brockway, Conor, Casale, Thomas B, Castillo-Ruano, Kathleen, Cinelli, Maria Angeles, Crestani, Elena, Cunningham, Amparito, Day-Lewis, Megan, Diaz-Cabrera, Natalie, DiMango, Angela, Esty, Brittany, Fandozzi, Eva, Fernandez, Jesse, and Fitzpatrick, Elizabeth

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Lung, Precision Medicine, Asthma, Clinical Trials and Supportive Activities, Respiratory, Good Health and Well Being, Advisory Committees, Biomarkers, Clinical Protocols, Clinical Trials, Phase II as Topic, Humans, Research Design, Severity of Illness Index, Tomography, X-Ray Computed, Severe asthma, precision medicine, adaptive clinical trial design, asthma exacerbation, type 2 asthma, non-type 2 asthma, patient advisory committee, biomarker, PrecISE Study Team, non–type 2 asthma, Immunology, Allergy

Abstract

Asthma is a heterogeneous disease, with multiple underlying inflammatory pathways and structural airway abnormalities that impact disease persistence and severity. Recent progress has been made in developing targeted asthma therapeutics, especially for subjects with eosinophilic asthma. However, there is an unmet need for new approaches to treat patients with severe and exacerbation-prone asthma, who contribute disproportionately to disease burden. Extensive deep phenotyping has revealed the heterogeneous nature of severe asthma and identified distinct disease subtypes. A current challenge in the field is to translate new and emerging knowledge about different pathobiologic mechanisms in asthma into patient-specific therapies, with the ultimate goal of modifying the natural history of disease. Here, we describe the Precision Interventions for Severe and/or Exacerbation-Prone Asthma (PrecISE) Network, a groundbreaking collaborative effort of asthma researchers and biostatisticians from around the United States. The PrecISE Network was designed to conduct phase II/proof-of-concept clinical trials of precision interventions in the population with severe asthma, and is supported by the National Heart, Lung, and Blood Institute of the National Institutes of Health. Using an innovative adaptive platform trial design, the PrecISE Network will evaluate up to 6 interventions simultaneously in biomarker-defined subgroups of subjects. We review the development and organizational structure of the PrecISE Network, and choice of interventions being studied. We hope that the PrecISE Network will enhance our understanding of asthma subtypes and accelerate the development of therapeutics for severe asthma.

Published

2022

4. The systemic inflammatory landscape of COVID-19 in pregnancy: Extensive serum proteomic profiling of mother-infant dyads with in utero SARS-CoV-2

Author

Foo, Suan-Sin, Cambou, Mary Catherine, Mok, Thalia, Fajardo, Viviana M, Jung, Kyle L, Fuller, Trevon, Chen, Weiqiang, Kerin, Tara, Mei, Jenny, Bhattacharya, Debika, Choi, Younho, Wu, Xin, Xia, Tian, Shin, Woo-Jin, Cranston, Jessica, Aldrovandi, Grace, Tobin, Nicole, Contreras, Deisy, Ibarrondo, Francisco J, Yang, Otto, Yang, Shangxin, Garner, Omai, Cortado, Ruth, Bryson, Yvonne, Janzen, Carla, Ghosh, Shubhamoy, Devaskar, Sherin, Asilnejad, Brenda, Moreira, Maria Elisabeth, Vasconcelos, Zilton, Soni, Priya R, Gibson, L Caroline, Brasil, Patricia, Comhair, Suzy AA, Arumugaswami, Vaithilingaraja, Erzurum, Serpil C, Rao, Rashmi, Jung, Jae U, and Nielsen-Saines, Karin

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Prevention, Infant Mortality, Biodefense, Pediatric Research Initiative, Lung, Clinical Research, Pediatric, Vaccine Related, Infectious Diseases, Conditions Affecting the Embryonic and Fetal Periods, Perinatal Period - Conditions Originating in Perinatal Period, Emerging Infectious Diseases, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Reproductive health and childbirth, Good Health and Well Being, Adolescent, Adult, COVID-19, Cytokines, Female, Humans, Infant, Newborn, Inflammation, Mothers, Pregnancy, Proteomics, Serum, Young Adult, COVID-19-exposed infants, IFN-λ signaling, mother-infant pairs, pregnancy, prenatal SARS-CoV-2 infection, serum proteomics, Biomedical and clinical sciences

Abstract

While pregnancy increases the risk for severe COVID-19, the clinical and immunological implications of COVID-19 on maternal-fetal health remain unknown. Here, we present the clinical and immunological landscapes of 93 COVID-19 mothers and 45 of their SARS-CoV-2-exposed infants through comprehensive serum proteomics profiling for >1,400 cytokines of their peripheral and cord blood specimens. Prenatal SARS-CoV-2 infection triggers NF-κB-dependent proinflammatory immune activation. Pregnant women with severe COVID-19 show increased inflammation and unique IFN-λ antiviral signaling, with elevated levels of IFNL1 and IFNLR1. Furthermore, SARS-CoV-2 infection re-shapes maternal immunity at delivery, altering the expression of pregnancy complication-associated cytokines, inducing MMP7, MDK, and ESM1 and reducing BGN and CD209. Finally, COVID-19-exposed infants exhibit induction of T cell-associated cytokines (IL33, NFATC3, and CCL21), while some undergo IL-1β/IL-18/CASP1 axis-driven neonatal respiratory distress despite birth at term. Our findings demonstrate COVID-19-induced immune rewiring in both mothers and neonates, warranting long-term clinical follow-up to mitigate potential health risks.

Published

2021

5. Mitochondrial DNA copy number variation in asthma risk, severity, and exacerbations

Author

Xu, Weiling, Hong, Yun Soo, Hu, Bo, Comhair, Suzy A.A., Janocha, Allison J., Zein, Joe G., Chen, Ruoying, Meyers, Deborah A., Mauger, David T., Ortega, Victor E., Bleecker, Eugene R., Castro, Mario, Denlinger, Loren C., Fahy, John V., Israel, Elliot, Levy, Bruce D., Jarjour, Nizar N., Moore, Wendy C., Wenzel, Sally E., Gaston, Benjamin, Liu, Chunyu, Arking, Dan E., and Erzurum, Serpil C.

Published

2024

6. Benefits of Airway Androgen Receptor Expression in Human Asthma.

Author

Zein, Joe G, McManus, Jeffrey M, Sharifi, Nima, Erzurum, Serpil C, Marozkina, Nadzeya, Lahm, Timothy, Giddings, Olivia, Davis, Michael D, DeBoer, Mark D, Comhair, Suzy A, Bazeley, Peter, Kim, Hyun Jo, Busse, William, Calhoun, William, Castro, Mario, Chung, Kian Fan, Fahy, John V, Israel, Elliot, Jarjour, Nizar N, Levy, Bruce D, Mauger, David T, Moore, Wendy C, Ortega, Victor E, Peters, Michael, Bleecker, Eugene R, Meyers, Deborah A, Zhao, Yi, Wenzel, Sally E, and Gaston, Benjamin

Subjects

Lung, Asthma, Respiratory, Good Health and Well Being, Adolescent, Adult, Aged, Aged, 80 and over, Breath Tests, Bronchoscopy, Dehydroepiandrosterone Sulfate, Female, Forced Expiratory Volume, Gene Expression, Humans, Male, Middle Aged, Nitric Oxide, Nitric Oxide Synthase Type II, Quality of Life, RNA, Messenger, Receptors, Androgen, Respiratory Mucosa, Sex Factors, Vital Capacity, Young Adult, asthma, androgens, airflow obstruction, airway inflammation, Medical and Health Sciences, Respiratory System

Abstract

Rationale: Androgens are potentially beneficial in asthma, but AR (androgen receptor) has not been studied in human airways.Objectives: To measure whether AR and its ligands are associated with human asthma outcomes.Methods: We compared the effects of AR expression on lung function, symptom scores, and fractional exhaled nitric oxide (FeNO) in adults enrolled in SARP (Severe Asthma Research Program). The impact of sex and of androgens on asthma outcomes was also evaluated in the SARP with validation studies in the Cleveland Clinic Health System and the NHANES (U.S. National Health and Nutrition Examination Survey).Measurements and Main Results: In SARP (n = 128), AR gene expression from bronchoscopic epithelial brushings was positively associated with both FEV1/FVC ratio (R2 = 0.135, P = 0.0002) and the total Asthma Quality of Life Questionnaire score (R2 = 0.056, P = 0.016) and was negatively associated with FeNO (R2 = 0.178, P = 9.8 × 10-6) and NOS2 (nitric oxide synthase gene) expression (R2 = 0.281, P = 1.2 × 10-10). In SARP (n = 1,659), the Cleveland Clinic Health System (n = 32,527), and the NHANES (n = 2,629), women had more asthma exacerbations and emergency department visits than men. The levels of the AR ligand precursor dehydroepiandrosterone sulfate correlated positively with the FEV1 in both women and men.Conclusions: Higher bronchial AR expression and higher androgen levels are associated with better lung function, fewer symptoms, and a lower FeNO in human asthma. The role of androgens should be considered in asthma management.

Published

2021

7. PrecISE: Precision Medicine in Severe Asthma: An adaptive platform trial with biomarker ascertainment

Author

Israel, Elliot, Denlinger, Loren C, Bacharier, Leonard B, LaVange, Lisa M, Moore, Wendy C, Peters, Michael C, Georas, Steve N, Wright, Rosalind J, Mauger, David T, Noel, Patricia, Akuthota, Praveen, Bach, Julia, Bleecker, Eugene R, Cardet, Juan Carlos, Carr, Tara F, Castro, Mario, Cinelli, Angeles, Comhair, Suzy AA, Covar, Ronina A, Alexander, Laura Crotty, DiMango, Emily A, Erzurum, Serpil C, Fahy, John V, Fajt, Merritt L, Gaston, Benjamin M, Hoffman, Eric A, Holguin, Fernando, Jackson, Daniel J, Jain, Sonia, Jarjour, Nizar N, Ji, Yuan, Kenyon, Nicholas J, Kosorok, Michael R, Kraft, Monica, Krishnan, Jerry A, Kumar, Rajesh, Liu, Andrew H, Liu, Mark C, Ly, Ngoc P, Marquis, M Alison, Martinez, Fernando D, Moy, James N, O'Neal, Wanda K, Ortega, Victor E, Peden, David B, Phipatanakul, Wanda, Ross, Kristie, Smith, Lewis J, Szefler, Stanley J, Teague, W Gerald, Tulchinsky, Abigail F, Vijayanand, Pandurangan, Wechsler, Michael E, Wenzel, Sally E, White, Steven R, Zeki, Amir A, and Ivanova, Anastasia

Subjects

Biomedical and Clinical Sciences, Immunology, Clinical Research, Biotechnology, Lung, Clinical Trials and Supportive Activities, Asthma, Respiratory, Good Health and Well Being, Biomarkers, Humans, Precision Medicine, Randomized Controlled Trials as Topic, Research Design, Severe asthma, therapy, clinical trial, biomarkers, precision medicine, adaptive design, master protocol, platform trial, Allergy

Abstract

Severe asthma accounts for almost half the cost associated with asthma. Severe asthma is driven by heterogeneous molecular mechanisms. Conventional clinical trial design often lacks the power and efficiency to target subgroups with specific pathobiological mechanisms. Furthermore, the validation and approval of new asthma therapies is a lengthy process. A large proportion of that time is taken by clinical trials to validate asthma interventions. The National Institutes of Health Precision Medicine in Severe and/or Exacerbation Prone Asthma (PrecISE) program was established with the goal of designing and executing a trial that uses adaptive design techniques to rapidly evaluate novel interventions in biomarker-defined subgroups of severe asthma, while seeking to refine these biomarker subgroups, and to identify early markers of response to therapy. The novel trial design is an adaptive platform trial conducted under a single master protocol that incorporates precision medicine components. Furthermore, it includes innovative applications of futility analysis, cross-over design with use of shared placebo groups, and early futility analysis to permit more rapid identification of effective interventions. The development and rationale behind the study design are described. The interventions chosen for the initial investigation and the criteria used to identify these interventions are enumerated. The biomarker-based adaptive design and analytic scheme are detailed as well as special considerations involved in the final trial design.

Published

2021

8. Epigenome-wide DNA methylation association study of circulating IgE levels identifies novel targets for asthma

Author

Abe, Namiko, Abecasis, Gonçalo, Aguet, Francois, Albert, Christine, Almasy, Laura, Alonso, Alvaro, Ament, Seth, Anderson, Peter, Anugu, Pramod, Applebaum-Bowden, Deborah, Ardlie, Kristin, Arking, Dan, Arnett, Donna K., Ashley-Koch, Allison, Aslibekyan, Stella, Assimes, Tim, Auer, Paul, Avramopoulos, Dimitrios, Ayas, Najib, Balasubramanian, Adithya, Barnard, John, Barnes, Kathleen, Barr, R. Graham, Barron-Casella, Emily, Barwick, Lucas, Beaty, Terri, Beck, Gerald, Becker, Diane, Becker, Lewis, Beer, Rebecca, Beitelshees, Amber, Benjamin, Emelia, Benos, Takis, Bezerra, Marcos, Bielak, Larry, Bis, Joshua, Blackwell, Thomas, Blangero, John, Blue, Nathan, Boerwinkle, Eric, Bowden, Donald W., Bowler, Russell, Brody, Jennifer, Broeckel, Ulrich, Broome, Jai, Brown, Deborah, Bunting, Karen, Burchard, Esteban, Bustamante, Carlos, Buth, Erin, Cade, Brian, Cardwell, Jonathan, Carey, Vincent, Carrier, Julie, Carson, April P., Carty, Cara, Casaburi, Richard, Casas Romero, Juan P., Casella, James, Castaldi, Peter, Chaffin, Mark, Chang, Christy, Chang, Yi-Cheng, Chasman, Daniel, Chavan, Sameer, Chen, Bo-Juen, Chen, Wei-Min, Ida Chen, Yii-Der, Cho, Michael, Choi, Seung Hoan, Chuang, Lee-Ming, Chung, Mina, Chung, Ren-Hua, Clish, Clary, Comhair, Suzy, Conomos, Matthew, Cornell, Elaine, Correa, Adolfo, Crandall, Carolyn, Crapo, James, Cupples, L. Adrienne, Curran, Joanne, Curtis, Jeffrey, Custer, Brian, Damcott, Coleen, Darbar, Dawood, David, Sean, Davis, Colleen, Daya, Michelle, de Andrade, Mariza, de las Fuentes, Lisa, de Vries, Paul, DeBaun, Michael, Deka, Ranjan, DeMeo, Dawn, Devine, Scott, Dinh, Huyen, Doddapaneni, Harsha, Duan, Qing, Dugan-Perez, Shannon, Duggirala, Ravi, Durda, Jon Peter, Dutcher, Susan K., Eaton, Charles, Ekunwe, Lynette, El Boueiz, Adel, Ellinor, Patrick, Emery, Leslie, Erzurum, Serpil, Farber, Charles, Farek, Jesse, Fingerlin, Tasha, Flickinger, Matthew, Fornage, Myriam, Franceschini, Nora, Frazar, Chris, Fu, Mao, Fullerton, Stephanie M., Fulton, Lucinda, Gabriel, Stacey, Gan, Weiniu, Gao, Shanshan, Gao, Yan, Gass, Margery, Geiger, Heather, Gelb, Bruce, Geraci, Mark, Germer, Soren, Gerszten, Robert, Ghosh, Auyon, Gibbs, Richard, Gignoux, Chris, Gladwin, Mark, Glahn, David, Gogarten, Stephanie, Gong, Da-Wei, Goring, Harald, Graw, Sharon, Gray, Kathryn J., Grine, Daniel, Gross, Colin, Gu, C. Charles, Guan, Yue, Guo, Xiuqing, Gupta, Namrata, Haessler, Jeff, Hall, Michael, Han, Yi, Hanly, Patrick, Harris, Daniel, Hawley, Nicola L., He, Jiang, Heavner, Ben, Heckbert, Susan, Hernandez, Ryan, Herrington, David, Hersh, Craig, Hidalgo, Bertha, Hixson, James, Hobbs, Brian, Hokanson, John, Hong, Elliott, Hoth, Karin, Hsiung, Chao (Agnes), Hu, Jianhong, Hung, Yi-Jen, Huston, Haley, Hwu, Chii Min, Irvin, Marguerite Ryan, Jackson, Rebecca, Jain, Deepti, Jaquish, Cashell, Johnsen, Jill, Johnson, Andrew, Johnson, Craig, Johnston, Rich, Jones, Kimberly, Kang, Hyun Min, Kaplan, Robert, Kardia, Sharon, Kelly, Shannon, Kenny, Eimear, Kessler, Michael, Khan, Alyna, Khan, Ziad, Kim, Wonji, Kimoff, John, Kinney, Greg, Konkle, Barbara, Kooperberg, Charles, Kramer, Holly, Lange, Christoph, Lange, Ethan, Lange, Leslie, Laurie, Cathy, Laurie, Cecelia, LeBoff, Meryl, Lee, Jiwon, Lee, Sandra, Lee, Wen-Jane, LeFaive, Jonathon, Levine, David, Levy, Daniel, Lewis, Joshua, Li, Xiaohui, Li, Yun, Lin, Henry, Lin, Honghuang, Lin, Xihong, Liu, Simin, Liu, Yongmei, Liu, Yu, Loos, Ruth J.F., Lubitz, Steven, Lunetta, Kathryn, Luo, James, Magalang, Ulysses, Mahaney, Michael, Make, Barry, Manichaikul, Ani, Manning, Alisa, Manson, JoAnn, Martin, Lisa, Marton, Melissa, Mathai, Susan, Mathias, Rasika, May, Susanne, McArdle, Patrick, McDonald, Merry-Lynn, McFarland, Sean, McGarvey, Stephen, McGoldrick, Daniel, McHugh, Caitlin, McNeil, Becky, Mei, Hao, Meigs, James, Menon, Vipin, Mestroni, Luisa, Metcalf, Ginger, Meyers, Deborah A., Mignot, Emmanuel, Mikulla, Julie, Min, Nancy, Minear, Mollie, Minster, Ryan L., Mitchell, Braxton D., Moll, Matt, Momin, Zeineen, Montasser, May E., Montgomery, Courtney, Muzny, Donna, Mychaleckyj, Josyf C., Nadkarni, Girish, Naik, Rakhi, Naseri, Take, Natarajan, Pradeep, Nekhai, Sergei, Nelson, Sarah C., Neltner, Bonnie, Nessner, Caitlin, Nickerson, Deborah, Nkechinyere, Osuji, North, Kari, O'Connell, Jeff, O'Connor, Tim, Ochs-Balcom, Heather, Okwuonu, Geoffrey, Pack, Allan, Paik, David T., Palmer, Nicholette, Pankow, James, Papanicolaou, George, Parker, Cora, Peloso, Gina, Peralta, Juan Manuel, Perez, Marco, Perry, James, Peters, Ulrike, Peyser, Patricia, Phillips, Lawrence S., Pleiness, Jacob, Pollin, Toni, Post, Wendy, Powers Becker, Julia, Preethi Boorgula, Meher, Preuss, Michael, Psaty, Bruce, Qasba, Pankaj, Qiao, Dandi, Qin, Zhaohui, Rafaels, Nicholas, Raffield, Laura, Rajendran, Mahitha, Ramachandran, Vasan S., Rao, D.C., Rasmussen-Torvik, Laura, Ratan, Aakrosh, Redline, Susan, Reed, Robert, Reeves, Catherine, Regan, Elizabeth, Reiner, Alex, Reupena, Muagututi‘a Sefuiva, Rice, Ken, Rich, Stephen, Robillard, Rebecca, Robine, Nicolas, Roden, Dan, Roselli, Carolina, Rotter, Jerome, Ruczinski, Ingo, Runnels, Alexi, Russell, Pamela, Ruuska, Sarah, Ryan, Kathleen, Sabino, Ester Cerdeira, Saleheen, Danish, Salimi, Shabnam, Salvi, Sejal, Salzberg, Steven, Sandow, Kevin, Sankaran, Vijay G., Santibanez, Jireh, Schwander, Karen, Schwartz, David, Sciurba, Frank, Seidman, Christine, Seidman, Jonathan, Sériès, Frédéric, Sheehan, Vivien, Sherman, Stephanie L., Shetty, Amol, Shetty, Aniket, Sheu, Wayne Hui-Heng, Shoemaker, M. Benjamin, Silver, Brian, Silverman, Edwin, Skomro, Robert, Smith, Albert Vernon, Smith, Jennifer, Smith, Josh, Smith, Nicholas, Smith, Tanja, Smoller, Sylvia, Snively, Beverly, Snyder, Michael, Sofer, Tamar, Sotoodehnia, Nona, Stilp, Adrienne M., Storm, Garrett, Streeten, Elizabeth, Su, Jessica Lasky, Sung, Yun Ju, Sylvia, Jody, Szpiro, Adam, Taliun, Daniel, Tang, Hua, Taub, Margaret, Taylor, Kent, Taylor, Matthew, Taylor, Simeon, Telen, Marilyn, Thornton, Timothy A., Threlkeld, Machiko, Tinker, Lesley, Tirschwell, David, Tishkoff, Sarah, Tiwari, Hemant, Tong, Catherine, Tracy, Russell, Tsai, Michael, Vaidya, Dhananjay, Van Den Berg, David, VandeHaar, Peter, Vrieze, Scott, Walker, Tarik, Wallace, Robert, Walts, Avram, Wang, Fei Fei, Wang, Heming, Wang, Jiongming, Watson, Karol, Watt, Jennifer, Weeks, Daniel E., Weinstock, Joshua, Weir, Bruce, Weiss, Scott T., Weng, Lu-Chen, Wessel, Jennifer, Willer, Cristen, Williams, Kayleen, Williams, L. Keoki, Williams, Scott, Wilson, Carla, Wilson, James, Winterkorn, Lara, Wong, Quenna, Wu, Baojun, Wu, Joseph, Xu, Huichun, Yanek, Lisa, Yang, Ivana, Yu, Ketian, Zekavat, Seyedeh Maryam, Zhang, Yingze, Zhao, Snow Xueyan, Zhao, Wei, Zhu, Xiaofeng, Ziv, Elad, Zody, Michael, Zoellner, Sebastian, Recto, Kathryn, Kachroo, Priyadarshini, Huan, Tianxiao, Lee, Gha Young, Bui, Helena, Lee, Dong Heon, Gereige, Jessica, Yao, Chen, Hwang, Shih-Jen, Joehanes, Roby, O’Connor, George T., and DeMeo, Dawn L.

Published

2023

9. CCL5 is a potential bridge between type 1 and type 2 inflammation in asthma

Author

Gauthier, Marc, Kale, Sagar Laxman, Oriss, Timothy B., Gorry, Michael, Ramonell, Richard P., Dalton, Kathryn, Ray, Prabir, Fahy, John V., Seibold, Max A., Castro, Mario, Jarjour, Nizar, Gaston, Benjamin, Bleecker, Eugene R., Meyers, Deborah A., Moore, Wendy, Hastie, Annette T., Israel, Elliot, Levy, Bruce D., Mauger, David, Erzurum, Serpil, Comhair, Suzy A., Wenzel, Sally E., and Ray, Anuradha

Published

2023

10. Hemoglobin resident in the lung epithelium is protective for smooth muscle soluble guanylate cyclase function

Author

Sumi, Mamta P., Tupta, Blair, Roychowdhury, Sanjoy, Comhair, Suzy, Asosingh, Kewal, Stuehr, Dennis J., Erzurum, Serpil C., and Ghosh, Arnab

Published

2023

11. Estimated Ventricular Size, Asthma Severity, and Exacerbations The Severe Asthma Research Program III Cohort

Author

Ash, Samuel Y, Sanchez-Ferrero, Gonzalo Vegas, Schiebler, Mark L, Rahaghi, Farbod N, Rai, Ashish, Come, Carolyn E, Ross, James C, Colon, Alysha G, Cardet, Juan Carlos, Bleecker, Eugene R, Castro, Mario, Fahy, John V, Fain, Sean B, Gaston, Benjamin M, Hoffman, Eric A, Jarjour, Nizar N, Lempel, Jason K, Mauger, David T, Tattersall, Matthew C, Wenzel, Sally E, Levy, Bruce D, Washko, George R, Israel, Elliot, San Jose Estepar, Raul, Investigators, SARP, Levy, Bruce, Washko, George, Cernadas, Manuela, Phipatanakul, Wanda, Wenzel, Sally, Fajt, Merritt, Gaston, Benjamin, Chmiel, James, Teague, W Gerald, Irani, Anne-Marie, Erzurum, Serpil, Khatri, Sumita, Comhair, Suzy, Dweik, Raed, Ross, Kristie, Myers, Ross, Moore, Wendy, Meyers, Deborah, Bleecker, Eugene, Peters, Stephen, Hastie, Annette, Ortega, Victor, Hawkins, Greg, Li, Xingan, Fitzpatrick, Anne, Jarjour, Nazar, Denlinger, Loren, Fain, Sean, Sorkness, Ronald, Bacharier, Leonard, Gierada, David, Schechtman, Kenneth, Woods, Jason, Fahy, John, Woodruff, Prescott, Ly, Ngoc, and Mauger, David

Subjects

Asthma, Clinical Research, Lung, Cardiovascular, Respiratory, Adult, Aorta, Case-Control Studies, Cone-Beam Computed Tomography, Disease Progression, Female, Forced Expiratory Volume, Heart Ventricles, Humans, Logistic Models, Male, Middle Aged, Organ Size, Pulmonary Artery, Severity of Illness Index, Vital Capacity, asthma, CT imaging, heart, SARP Investigators, Clinical Sciences, Respiratory System

Abstract

BackgroundRelative enlargement of the pulmonary artery (PA) on chest CT imaging is associated with respiratory exacerbations in patients with COPD or cystic fibrosis. We sought to determine whether similar findings were present in patients with asthma and whether these findings were explained by differences in ventricular size.MethodsWe measured the PA and aorta diameters in 233 individuals from the Severe Asthma Research Program III cohort. We also estimated right, left, and total epicardial cardiac ventricular volume indices (eERVVI, eELVVI, and eETVVI, respectively). Associations between the cardiac and PA measures (PA-to-aorta [PA/A] ratio, eERVVI-to-eELVVI [eRV/eLV] ratio, eERVVI, eELVVI, eETVVI) and clinical measures of asthma severity were assessed by Pearson correlation, and associations with asthma severity and exacerbation rate were evaluated by multivariable linear and zero-inflated negative binomial regression.ResultsAsthma severity was associated with smaller ventricular volumes. For example, those with severe asthma had 36.1 mL/m2 smaller eETVVI than healthy control subjects (P = .003) and 14.1 mL/m2 smaller eETVVI than those with mild/moderate disease (P = .011). Smaller ventricular volumes were also associated with a higher rate of asthma exacerbations, both retrospectively and prospectively. For example, those with an eETVVI less than the median had a 57% higher rate of exacerbations during follow-up than those with eETVVI greater than the median (P = .020). Neither PA/A nor eRV/eLV was associated with asthma severity or exacerbations.ConclusionsIn patients with asthma, smaller cardiac ventricular size may be associated with more severe disease and a higher rate of asthma exacerbations.Trial registryClinicalTrials.gov; No.: NCT01761630; URL: www.clinicaltrials.gov.

Published

2020

12. HSD3B1 genotype identifies glucocorticoid responsiveness in severe asthma

Author

Zein, Joe, Gaston, Benjamin, Bazeley, Peter, DeBoer, Mark D, Igo, Robert P, Bleecker, Eugene R, Meyers, Deborah, Comhair, Suzy, Marozkina, Nadzeya V, Cotton, Calvin, Patel, Mona, Alyamani, Mohammad, Xu, Weiling, Busse, William W, Calhoun, William J, Ortega, Victor, Hawkins, Gregory A, Castro, Mario, Chung, Kian Fan, Fahy, John V, Fitzpatrick, Anne M, Israel, Elliot, Jarjour, Nizar N, Levy, Bruce, Mauger, David T, Moore, Wendy C, Noel, Patricia, Peters, Stephen P, Teague, W Gerald, Wenzel, Sally E, Erzurum, Serpil C, and Sharifi, Nima

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Clinical Sciences, Lung, Asthma, Genetics, Adult, Aged, Alleles, Androgens, Cohort Studies, Drug Resistance, Female, Genotype, Glucocorticoids, Humans, Male, Middle Aged, Multienzyme Complexes, Progesterone Reductase, Steroid Isomerases, Young Adult, steroids, glucocorticoids, inflammation, androgens, HSD3B1

Abstract

Asthma resistance to glucocorticoid treatment is a major health problem with unclear etiology. Glucocorticoids inhibit adrenal androgen production. However, androgens have potential benefits in asthma. HSD3B1 encodes for 3β-hydroxysteroid dehydrogenase-1 (3β-HSD1), which catalyzes peripheral conversion from adrenal dehydroepiandrosterone (DHEA) to potent androgens and has a germline missense-encoding polymorphism. The adrenal restrictive HSD3B1(1245A) allele limits conversion, whereas the adrenal permissive HSD3B1(1245C) allele increases DHEA metabolism to potent androgens. In the Severe Asthma Research Program (SARP) III cohort, we determined the association between DHEA-sulfate and percentage predicted forced expiratory volume in 1 s (FEV1PP). HSD3B1(1245) genotypes were assessed, and association between adrenal restrictive and adrenal permissive alleles and FEV1PP in patients with (GC) and without (noGC) daily oral glucocorticoid treatment was determined (n = 318). Validation was performed in a second cohort (SARP I&II; n = 184). DHEA-sulfate is associated with FEV1PP and is suppressed with GC treatment. GC patients homozygous for the adrenal restrictive genotype have lower FEV1PP compared with noGC patients (54.3% vs. 75.1%; P < 0.001). In patients with the homozygous adrenal permissive genotype, there was no FEV1PP difference in GC vs. noGC patients (73.4% vs. 78.9%; P = 0.39). Results were independently confirmed: FEV1PP for homozygous adrenal restrictive genotype in GC vs. noGC is 49.8 vs. 63.4 (P < 0.001), and for homozygous adrenal permissive genotype, it is 66.7 vs. 67.7 (P = 0.92). The adrenal restrictive HSD3B1(1245) genotype is associated with GC resistance. This effect appears to be driven by GC suppression of 3β-HSD1 substrate. Our results suggest opportunities for prediction of GC resistance and pharmacologic intervention.

Published

2020

13. Extracellular DNA, Neutrophil Extracellular Traps, and Inflammasome Activation in Severe Asthma

Author

Lachowicz-Scroggins, Marrah E, Dunican, Eleanor M, Charbit, Annabelle R, Raymond, Wilfred, Looney, Mark R, Peters, Michael C, Gordon, Erin D, Woodruff, Prescott G, Lefrançais, Emma, Phillips, Brenda R, Mauger, David T, Comhair, Suzy A, Erzurum, Serpil C, Johansson, Mats W, Jarjour, Nizar N, Coverstone, Andrea M, Castro, Mario, Hastie, Annette T, Bleecker, Eugene R, Fajt, Merritt L, Wenzel, Sally E, Israel, Elliot, Levy, Bruce D, and Fahy, John V

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Lung, Clinical Research, Asthma, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Respiratory, Good Health and Well Being, Acute Disease, Adult, Blotting, Western, Case-Control Studies, DNA, Extracellular Traps, Female, Glucosephosphate Dehydrogenase, Humans, Inflammasomes, Interleukin-6, Interleukin-8, Longitudinal Studies, Male, Middle Aged, Neutrophils, asthma, extracellular DNA, caspase 1, neutrophil extracellular traps, IL-1 beta, IL-1β, Medical and Health Sciences, Respiratory System, Cardiovascular medicine and haematology, Clinical sciences

Abstract

Rationale: Extracellular DNA (eDNA) and neutrophil extracellular traps (NETs) are implicated in multiple inflammatory diseases. NETs mediate inflammasome activation and IL-1β secretion from monocytes and cause airway epithelial cell injury, but the role of eDNA, NETs, and IL-1β in asthma is uncertain. Objectives: To characterize the role of activated neutrophils in severe asthma through measurement of NETs and inflammasome activation. Methods: We measured sputum eDNA in induced sputum from 399 patients with asthma in the Severe Asthma Research Program-3 and in 94 healthy control subjects. We subdivided subjects with asthma into eDNA-low and -high subgroups to compare outcomes of asthma severity and of neutrophil and inflammasome activation. We also examined if NETs cause airway epithelial cell damage that can be prevented by DNase. Measurements and Main Results: We found that 13% of the Severe Asthma Research Program-3 cohort is "eDNA-high," as defined by sputum eDNA concentrations above the upper 95th percentile value in health. Compared with eDNA-low patients with asthma, eDNA-high patients had lower Asthma Control Test scores, frequent history of chronic mucus hypersecretion, and frequent use of oral corticosteroids for maintenance of asthma control (all P values

Published

2019

14. Refractory airway type 2 inflammation in a large subgroup of asthmatic patients treated with inhaled corticosteroids

Author

Peters, Michael C, Kerr, Sheena, Dunican, Eleanor M, Woodruff, Prescott G, Fajt, Merritt L, Levy, Bruce D, Israel, Elliot, Phillips, Brenda R, Mauger, David T, Comhair, Suzy A, Erzurum, Serpil C, Johansson, Mats W, Jarjour, Nizar N, Coverstone, Andrea M, Castro, Mario, Hastie, Annette T, Bleecker, Eugene R, Wenzel, Sally E, Fahy, John V, and Heart, Lung and Blood Institute Severe Asthma Research Program 3 National

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Lung, Asthma, Clinical Research, Respiratory, Administration, Inhalation, Adrenal Cortex Hormones, Adult, Biomarkers, Cytokines, Eosinophils, Female, Gene Expression Regulation, Humans, Immunoglobulin E, Inflammation, Leukocyte Count, Longitudinal Studies, Male, Middle Aged, Th2 Cells, Severe asthma, type 2 inflammation, steroid resistance, biomarkers, National Heart, Lung and Blood Institute Severe Asthma Research Program 3, Immunology, Allergy

Abstract

BackgroundAirway type 2 inflammation is usually corticosteroid sensitive, but the role of type 2 inflammation as a mechanism of asthma in patients receiving high-dose inhaled corticosteroids (ICSs) is uncertain.ObjectiveWe sought to determine whether airway type 2 inflammation persists in patients treated with ICSs and to evaluate the clinical features of patients with steroid-resistant airway type 2 inflammation.MethodsWe used quantitative PCR to generate a composite metric of type 2 cytokine gene expression (type 2 gene mean [T2GM]) in induced sputum cells from healthy control subjects, patients with severe asthma receiving ICSs (n = 174), and patients with nonsevere asthma receiving ICSs (n = 85). We explored relationships between asthma outcomes and T2GM values and the utility of noninvasive biomarkers of airway T2GM.ResultsSputum cell T2GM values in asthmatic patients were significantly increased and remained high after treatment with intramuscular triamcinolone. We used the median T2GM value as a cutoff to classify steroid-treated type 2-low and steroid-resistant type 2-high (srT2-high) subgroups. Compared with patients with steroid-treated type 2-low asthma, those with srT2-high asthma were older and had more severe asthma. Blood eosinophil cell counts predicted srT2-high asthma when body mass index was less than 40 kg/m2 but not when it was 40 kg/m2 or greater, whereas blood IgE levels strongly predicted srT2-high asthma when age was less than 34 years but not when it was 34 years or greater.ConclusionDespite ICS therapy, many asthmatic patients have persistent airway type 2 inflammation (srT2-high asthma), and these patients are older and have more severe disease. Body weight and age modify the performance of blood-based biomarkers of airway type 2 inflammation.

Published

2019

15. Clinical Characteristics and Transplant-Free Survival Across the Spectrum of Pulmonary Vascular Disease

Author

Hemnes, Anna R., Leopold, Jane A., Radeva, Milena K., Beck, Gerald J., Abidov, Aiden, Aldred, Micheala A., Barnard, John, Rosenzweig, Erika B., Borlaug, Barry A., Chung, Wendy K., Comhair, Suzy A.A., Desai, Ankit A., Dubrock, Hilary M., Erzurum, Serpil C., Finet, J. Emanuel, Frantz, Robert P., Garcia, Joe G.N., Geraci, Mark W., Gray, Michael P., Grunig, Gabriele, Hassoun, Paul M., Highland, Kristin B., Hill, Nicholas S., Hu, Bo, Kwon, Deborah H., Jacob, Miriam S., Jellis, Christine L., Larive, A. Brett, Lempel, Jason K., Maron, Bradley A., Mathai, Stephen C., McCarthy, Kevin, Mehra, Reena, Nawabit, Rawan, Newman, John H., Olman, Mitchell A., Park, Margaret M., Ramos, Jose A., Renapurkar, Rahul D., Rischard, Franz P., Sherer, Susan G., Tang, W.H. Wilson, Thomas, James D., Vanderpool, Rebecca R., Waxman, Aaron B., Wilcox, Jennifer D., Yuan, Jason X.-J., and Horn, Evelyn M.

Published

2022

16. Characteristic disease defects in circulating endothelial cells isolated from patients with pulmonary arterial hypertension.

Author

Aulak, Kulwant S., Mavarakis, Lori, Tian, Liping, Paul, Deborah, Comhair, Suzy A., Dweik, Raed A., and Tonelli, Adriano R.

Subjects

PULMONARY arterial hypertension, ENDOTHELIAL cells, CARDIAC catheterization, DISEASE progression, TRANSCRIPTOMES, AUTOPSY

Abstract

Pulmonary arterial hypertension (PAH) is a progressive disease characterized by elevated pulmonary arterial pressures that can lead to right heart failure and death. No cure exists for this disease, but therapeutic advancements have extended its median survival from 2 to 7 years. Mechanistic research in PAH has been limited by factors including that a) animal models do not fully recapitulate the disease or provide insights into its pathogenesis, and b) cellular material from PAH patients is primarily obtained from donor lungs during autopsy or transplantation, which reflect end-stage disease. Therefore, there is a need to identify tools that can elucidate the specific mechanisms of human disease in individual patients, a critical step to guide treatment decisions based on specific pathway abnormalities. Here we demonstrate a simple method to isolate and culture circulating endothelial cells (CECs) obtained at the time of right heart catheterization in PAH patients. We tested these CECs using transcriptomics and found that they have typical traits of PAH, including those involving key treatment pathways, i.e. nitric oxide, endothelin, prostacyclin and BMP/activin pathways. CECs show important gene expression changes in other central PAH disease pathways. In summary, we present a new cellular model for the ex-vivo mechanistic evaluation of critical PAH pathways that participate in the pathogenesis of the disease and may help personalized therapeutic decisions. [ABSTRACT FROM AUTHOR]

Published

2024

17. Baseline Features of the Severe Asthma Research Program (SARP III) Cohort: Differences with Age.

Author

Teague, W Gerald, Phillips, Brenda R, Fahy, John V, Wenzel, Sally E, Fitzpatrick, Anne M, Moore, Wendy C, Hastie, Annette T, Bleecker, Eugene R, Meyers, Deborah A, Peters, Stephen P, Castro, Mario, Coverstone, Andrea M, Bacharier, Leonard B, Ly, Ngoc P, Peters, Michael C, Denlinger, Loren C, Ramratnam, Sima, Sorkness, Ronald L, Gaston, Benjamin M, Erzurum, Serpil C, Comhair, Suzy AA, Myers, Ross E, Zein, Joe, DeBoer, Mark D, Irani, Anne-Marie, Israel, Elliot, Levy, Bruce, Cardet, Juan Carlos, Phipatanakul, Wanda, Gaffin, Jonathan M, Holguin, Fernando, Fajt, Merritt L, Aujla, Shean J, Mauger, David T, and Jarjour, Nizar N

Subjects

Humans, Asthma, Obesity, Immunoglobulin E, Bronchodilator Agents, Severity of Illness Index, Cohort Studies, Age Factors, Adolescent, Adult, Aged, Middle Aged, Child, Patient Acceptance of Health Care, Female, Male, Young Adult, Asthma phenotypes, Severe asthma, Clinical Research, Pediatric, Lung, Aetiology, 2.2 Factors relating to the physical environment, Respiratory, Good Health and Well Being

Abstract

BackgroundThe effect of age on asthma severity is poorly understood.ObjectivesThe objective of this study was to compare the baseline features of severe and nonsevere asthma in the Severe Asthma Research Program (SARP) III cohort, and examine in cross section the effects of age on those features.MethodsSARP III is a National Institutes of Health/National Heart Lung Blood Institute multisite 3-year cohort study conducted to investigate mechanisms of severe asthma. The sample included 188 children (111 severe, 77 nonsevere) and 526 adults (313 severe, 213 nonsevere) characterized for demographic features, symptoms, health care utilization, lung function, and inflammatory markers compared by age and severity.ResultsCompared with children with nonsevere asthma, children with severe asthma had more symptoms and more historical exacerbations, but no difference in body weight, post-bronchodilator lung function, or inflammatory markers. After childhood, and increasing with age, the cohort had a higher proportion of women, less allergen sensitization, and overall fewer blood eosinophils. Enrollment of participants with severe asthma was highest in middle-aged adults, who were older, more obese, with greater airflow limitation and higher blood eosinophils, but less allergen sensitization than adults with nonsevere asthma.ConclusionsThe phenotypic features of asthma differ by severity and with advancing age. With advancing age, patients with severe asthma are more obese, have greater airflow limitation, less allergen sensitization, and variable type 2 inflammation. Novel mechanisms besides type 2 inflammatory pathways may inform the severe asthma phenotype with advancing age.

Published

2018

18. ALX receptor ligands define a biochemical endotype for severe asthma

Author

Ricklefs, Isabell, Barkas, Ioanna, Duvall, Melody G, Cernadas, Manuela, Grossman, Nicole L, Israel, Elliot, Bleecker, Eugene R, Castro, Mario, Erzurum, Serpil C, Fahy, John V, Gaston, Benjamin M, Denlinger, Loren C, Mauger, David T, Wenzel, Sally E, Comhair, Suzy A, Coverstone, Andrea M, Fajt, Merritt L, Hastie, Annette T, Johansson, Mats W, Peters, Michael C, Phillips, Brenda R, and Levy, Bruce D

Subjects

Asthma, Lung, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Respiratory, Good Health and Well Being, National Heart Lung and Blood Institute’s Severe Asthma Research Program-3 Investigators, Inflammation, Pulmonology

Abstract

In health, inflammation resolution is an active process governed by specialized proresolving mediators and receptors. ALX/FPR2 receptors (ALX) are targeted by both proresolving and proinflammatory ligands for opposing signaling events, suggesting pivotal roles for ALX in the fate of inflammatory responses. Here, we determined if ALX expression and ligands were linked to severe asthma (SA). ALX expression and levels of proresolving ligands (lipoxin A4 [LXA4], 15-epi-LXA4, and annexin A1 [ANXA1]), and a proinflammatory ligand (serum amyloid A [SAA]) were measured in bronchoscopy samples collected in Severe Asthma Research Program-3 (SA [n = 69], non-SA [NSA, n = 51] or healthy donors [HDs, n = 47]). Bronchoalveolar lavage (BAL) fluid LXA4 and 15-epi-LXA4 were decreased and SAA was increased in SA relative to NSA. BAL macrophage ALX expression was increased in SA. Subjects with LXA4loSAAhi levels had increased BAL neutrophils, more asthma symptoms, lower lung function, increased relative risk for asthma exacerbation, sinusitis, and gastroesophageal reflux disease, and were assigned more frequently to SA clinical clusters. SAA and aliquots of LXA4loSAAhi BAL fluid induced IL-8 production by lung epithelial cells expressing ALX receptors, which was inhibited by coincubation with 15-epi-LXA4. Together, these findings have established an association between select ALX receptor ligands and asthma severity that define a potentially new biochemical endotype for asthma and support a pivotal functional role for ALX signaling in the fate of lung inflammation. Severe Asthma Research Program-3 (SARP-3; ClinicalTrials.gov NCT01606826)FUNDING Sources. National Heart, Lung and Blood Institute, the NIH, and the German Society of Pediatric Pneumology.

Published

2017

19. Natural killer cell–mediated inflammation resolution is disabled in severe asthma

Author

Duvall, Melody G, Barnig, Cindy, Cernadas, Manuela, Ricklefs, Isabell, Krishnamoorthy, Nandini, Grossman, Nicole L, Bhakta, Nirav R, Fahy, John V, Bleecker, Eugene R, Castro, Mario, Erzurum, Serpil C, Gaston, Benjamin M, Jarjour, Nizar N, Mauger, David T, Wenzel, Sally E, Comhair, Suzy A, Coverstone, Andrea M, Fajt, Merritt L, Hastie, Annette T, Johansson, Mats W, Peters, Michael C, Phillips, Brenda R, Israel, Elliot, Levy, Bruce D, and Investigators, Heart Lung and Blood Institute’s Severe Asthma Research Program-3

Subjects

Lung, Asthma, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Respiratory, National Heart, Lung, and Blood Institute’s Severe Asthma Research Program-3 Investigators

Abstract

Severe asthma is typically characterized by chronic airway inflammation that is refractory to corticosteroids and associated with excess morbidity. Patients were recruited into the National Heart, Lung, and Blood Institute-sponsored Severe Asthma Research Program and comprehensively phenotyped by bronchoscopy. Bronchoalveolar lavage (BAL) cells were analyzed by flow cytometry. Compared with healthy individuals (n = 21), patients with asthma (n = 53) had fewer BAL natural killer (NK) cells. Patients with severe asthma (n = 29) had a marked increase in the ratios of CD4+ T cells to NK cells and neutrophils to NK cells. BAL NK cells in severe asthma were skewed toward the cytotoxic CD56dim subset, with significantly increased BAL fluid levels of the cytotoxic mediator granzyme A. The numbers of BAL CD56dim NK cells and CCR6-CCR4- T helper 1-enriched CD4+ T cells correlated inversely with lung function [forced expiratory volume in 1 s (FEV1) % predicted] in asthma. Relative to cells from healthy controls, peripheral blood NK cells from asthmatic patients had impaired killing of K562 myeloid target cells despite releasing more cytotoxic mediators. Ex vivo exposure to dexamethasone markedly decreased blood NK cell lysis of target cells and cytotoxic mediator release. NK cells expressed airway lipoxin A4/formyl peptide receptor 2 receptors, and in contrast to dexamethasone, lipoxin A4-exposed NK cells had preserved functional responses. Together, our findings indicate that the immunology of the severe asthma airway is characterized by decreased NK cell cytotoxicity with increased numbers of target leukocytes, which is exacerbated by corticosteroids that further disable NK cell function. These failed resolution mechanisms likely contribute to persistent airway inflammation in severe asthma.

Published

2017

20. Inflammatory and Comorbid Features of Patients with Severe Asthma and Frequent Exacerbations

Author

Denlinger, Loren C, Phillips, Brenda R, Ramratnam, Sima, Ross, Kristie, Bhakta, Nirav R, Cardet, Juan Carlos, Castro, Mario, Peters, Stephen P, Phipatanakul, Wanda, Aujla, Shean, Bacharier, Leonard B, Bleecker, Eugene R, Comhair, Suzy AA, Coverstone, Andrea, DeBoer, Mark, Erzurum, Serpil C, Fain, Sean B, Fajt, Merritt, Fitzpatrick, Anne M, Gaffin, Jonathan, Gaston, Benjamin, Hastie, Annette T, Hawkins, Gregory A, Holguin, Fernando, Irani, Anne-Marie, Israel, Elliot, Levy, Bruce D, Ly, Ngoc, Meyers, Deborah A, Moore, Wendy C, Myers, Ross, Opina, Maria Theresa D, Peters, Michael C, Schiebler, Mark L, Sorkness, Ronald L, Teague, W Gerald, Wenzel, Sally E, Woodruff, Prescott G, Mauger, David T, Fahy, John V, and Jarjour, Nizar N

Subjects

Asthma, Clinical Research, Lung, Respiratory, Adolescent, Adult, Albuterol, Biomarkers, Body Mass Index, Breath Tests, Bronchodilator Agents, Chi-Square Distribution, Child, Comorbidity, Disease Progression, Disease Susceptibility, Drug Resistance, Eosinophils, Female, Humans, Immunoglobulin E, Inflammation, Male, Middle Aged, Nitric Oxide, Severity of Illness Index, Sex Distribution, Sputum, exacerbation-prone asthma, bronchodilator reversibility, eosinophils, sinusitis, gastroesophageal reflux, National Heart, Lung, and Blood Institute’s Severe Asthma Research Program-3 Investigators, Medical and Health Sciences, Respiratory System

Abstract

RationaleReducing asthma exacerbation frequency is an important criterion for approval of asthma therapies, but the clinical features of exacerbation-prone asthma (EPA) remain incompletely defined.ObjectivesTo describe the clinical, physiologic, inflammatory, and comorbidity factors associated with EPA.MethodsBaseline data from the NHLBI Severe Asthma Research Program (SARP)-3 were analyzed. An exacerbation was defined as a burst of systemic corticosteroids lasting 3 days or more. Patients were classified by their number of exacerbations in the past year: none, few (one to two), or exacerbation prone (≥3). Replication of a multivariable model was performed with data from the SARP-1 + 2 cohort.Measurements and main resultsOf 709 subjects in the SARP-3 cohort, 294 (41%) had no exacerbations and 173 (24%) were exacerbation prone in the prior year. Several factors normally associated with severity (asthma duration, age, sex, race, and socioeconomic status) did not associate with exacerbation frequency in SARP-3; bronchodilator responsiveness also discriminated exacerbation proneness from asthma severity. In the SARP-3 multivariable model, blood eosinophils, body mass index, and bronchodilator responsiveness were positively associated with exacerbation frequency (rate ratios [95% confidence interval], 1.6 [1.2-2.1] for every log unit of eosinophils, 1.3 [1.1-1.4] for every 10 body mass index units, and 1.2 [1.1-1.4] for every 10% increase in bronchodilatory responsiveness). Chronic sinusitis and gastroesophageal reflux were also associated with exacerbation frequency (1.7 [1.4-2.1] and 1.6 [1.3-2.0]), even after adjustment for multiple factors. These effects were replicated in the SARP-1 + 2 multivariable model.ConclusionsEPA may be a distinct susceptibility phenotype with implications for the targeting of exacerbation prevention strategies. Clinical trial registered with www.clinicaltrials.gov (NCT 01760915).

Published

2017

21. Co-Occurrence of Asthma and Nephrolithiasis in Children.

Author

Kartha, Ganesh K, Li, Ina, Comhair, Suzy, Erzurum, Serpil C, and Monga, Manoj

Subjects

Humans, Asthma, Adrenal Cortex Hormones, Adrenergic beta-Agonists, Administration, Inhalation, Prevalence, Databases, Factual, Adolescent, Child, Child, Preschool, Infant, Female, Male, Nephrolithiasis, Administration, Inhalation, Preschool, Databases, Factual, General Science & Technology

Abstract

It has been proposed that epithelial dysfunction and inflammation may predispose patients to kidney stone formation. Asthma is another chronic condition related to epithelial dysfunction and inflammation. We hypothesized that pediatric patients with asthma would have an increased prevalence of nephrolithiasis. Furthermore, we investigated if asthma patients with nephrolithiasis have clinical characteristics and urine profiles that point to mechanisms of stone formation. We evaluated 865 pediatric patients who had a diagnosis of nephrolithiasis. Clinical/demographic data and 24 hour urine samples were compared between asthma + stone (n = 142) and stone only patients. Data from asthmatics without stone were also available for evaluation of medication differences among asthma + stone and asthma only patients. The prevalence of nephrolithiasis in the pediatric population at our institution was 0.08% vs. 0.31% in our pediatric asthmatic population. The prevalence of asthma in our pediatric population was 6.8% vs. 26.7% in our pediatric stone patients. Asthma + stone patients were more likely to be on a combination inhaled corticosteroid + long acting beta agonist inhaler as compared to age/gender/BMI matched asthma patients without stone (29.7% vs. 13.7%, p = 0.0012). 259 kidney stone patients had 24 hour urine samples for comparison. There was no difference in 24 hour urine profiles between asthma + stone and stone only patients. Children with asthma have a 4-fold greater prevalence of kidney stones than the general pediatric population. Similarly, children with kidney stones have a 4-fold greater prevalence of asthma. This correlation may suggest a mechanistic link between asthma and nephrolithiasis. Further investigation is needed to elucidate the pathophysiologic origin of this relationship.

Published

2017

22. A novel DNase assay reveals low DNase activity in severe asthma.

Author

Charbit, Annabelle R., Liegeois, Maude A., Raymond, Wilfred W., Comhair, Suzy A. A., Johansson, Mats W., Hastie, Annette T., Bleecker, Eugene R., Fajt, Merritt, Castro, Mario, Sumino, Kaharu, Erzurum, Serpil C., Israel, Elliot, Jarjour, Nizar N., Mauger, David T., Moore, Wendy C., Wenzel, Sally E., Woodruff, Prescott G., Levy, Bruce D., Tang, Monica C., and Fahy, John V.

Subjects

ASTHMA, POST-translational modification, ASTHMATICS, EOSINOPHILIA, MUCUS, DEOXYRIBONUCLEASES, EOSINOPHILS

Abstract

Secreted deoxyribonucleases (DNases), such as DNase-I and DNase-IL3, degrade extracellular DNA, and endogenous DNases have roles in resolving airway inflammation and guarding against autoimmune responses to nucleotides. Subsets of patients with asthma have high airway DNA levels, but information about DNase activity in health and in asthma is lacking. To characterize DNase activity in health and in asthma, we developed a novel kinetic assay using a Taqman probe sequence that is quickly cleaved by DNase-I to produce a large product signal. We used this kinetic assay to measure DNase activity in sputum from participants in the Severe Asthma Research Program (SARP)-3 (n = 439) and from healthy controls (n = 89). We found that DNase activity was lower than normal in asthma [78.7 relative fluorescence units (RFU)/min vs. 120.4 RFU/min, P < 0.0001]. Compared to patients with asthma with sputum DNase activity in the upper tertile activity levels, those in the lower tertile of sputum DNase activity were characterized clinically by more severe disease and pathologically by airway eosinophilia and airway mucus plugging. Carbamylation of DNase-I, a post-translational modification that can be mediated by eosinophil peroxidase, inactivated DNase-I. In summary, a Taqman probe-based DNase activity assay uncovers low DNase activity in the asthma airway that is associated with more severe disease and airway mucus plugging and may be caused, at least in part, by eosinophil-mediated carbamylation. NEW & NOTEWORTHY We developed a new DNase assay and used it to show that DNase activity is impaired in asthma airways. [ABSTRACT FROM AUTHOR]

Published

2024

23. The role of ACT score in mepolizumab discontinuation.

Author

Solanki, Neha, Beck, Brittany, Labadia, Monica, Smith, Kevin, Peterson, Laura, King, Stephanie, Micklewright, Sarah, Pennington, Emily, Farooq, Sobia, Zhang, Peng, Aronica, Mark, Zein, Joe, Khatri, Sumita, Comhair, Suzy, and Erzurum, Serpil

Subjects

DISEASE risk factors, ODDS ratio, ASTHMA, NITRIC oxide, EOSINOPHILS

Abstract

Mepolizumab is a therapy for severe asthma. We have little knowledge of the characteristics of people in the US that discontinue mepolizumab in clinical care. To investigate the real-world efficacy and time to clinical discontinuation of mepolizumab, we evaluated individuals with asthma started on mepolizumab at the Cleveland Clinic. We hypothesized that individuals that discontinue mepolizumab have more severe and uncontrolled asthma at baseline. Between 2016 and 2022, patients who started on mepolizumab consented to be assessed over 18 months. At baseline, a questionnaire including demographic and medical history was collected. Laboratory findings such as ACT score, FENO (Fractional Excretion of Nitric Oxide), and spirometry were recorded. At the conclusion of the observation period, the participants were divided into two categories: Group A and Group B. Group B [N = 28] discontinued mepolizumab (p < 0.05) at an average of 5.8 months (SD 4.2 months). Group A [N = 129] stayed on the therapy for at least 1 year. A participant with an ACT score less than 13 has an odds ratio of 6.64 (95% CI, 2.1 − 26.0) of discontinuing mepolizumab therapy. For a male, the odds of discontinuing mepolizumab therapy is 3.39 (95% CI, 1.1–11.2). In this real-world study, we find that high eosinophil count may not be adequate in screening which individuals will benefit from mepolizumab. Up to 17% of patients fail therapy within 6 months, with male sex and low ACT score increasing risk of mepolizumab discontinuation at Cleveland Clinic. [ABSTRACT FROM AUTHOR]

Published

2024

24. Assessing the clinico‐immunological profile of patients with obesity and chronic rhinosinusitis.

Author

Chaaban, Mohamad R., Asosingh, Kewal, Comhair, Suzy, and Hoying, David

Published

2024

25. Specific O-GlcNAc modification at Ser-615 modulates eNOS function

Author

Aulak, Kulwant S., Barnes, Jarrod W., Tian, Liping, Mellor, Noel E., Haque, Mohammad M., Willard, Belinda, Li, Ling, Comhair, Suzy C., Stuehr, Dennis J., and Dweik, Raed A.

Published

2020

26. Estimated Ventricular Size, Asthma Severity, and Exacerbations: The Severe Asthma Research Program III Cohort

Author

Israel, Elliot, Levy, Bruce, Washko, George, Cernadas, Manuela, Phipatanakul, Wanda, Wenzel, Sally, Fajt, Merritt, Gaston, Benjamin, Chmiel, James, Teague, W. Gerald, Irani, Anne-Marie, Erzurum, Serpil, Khatri, Sumita, Comhair, Suzy, Dweik, Raed, Ross, Kristie, Myers, Ross, Moore, Wendy, Meyers, Deborah, Bleecker, Eugene, Peters, Stephen, Hastie, Annette, Ortega, Victor, Hawkins, Greg, Li, Xingan, Fitzpatrick, Anne, Jarjour, Nazar, Denlinger, Loren, Fain, Sean, Sorkness, Ronald, Castro, Mario, Bacharier, Leonard, Gierada, David, Schechtman, Kenneth, Woods, Jason, Fahy, John, Woodruff, Prescott, Ly, Ngoc, Mauger, David, Ash, Samuel Y., Sanchez-Ferrero, Gonzalo Vegas, Schiebler, Mark L., Rahaghi, Farbod N., Rai, Ashish, Come, Carolyn E., Ross, James C., Colon, Alysha G., Cardet, Juan Carlos, Bleecker, Eugene R., Fahy, John V., Fain, Sean B., Gaston, Benjamin M., Hoffman, Eric A., Jarjour, Nizar N., Lempel, Jason K., Mauger, David T., Tattersall, Matthew C., Wenzel, Sally E., Levy, Bruce D., Washko, George R., and San Jose Estepar, Raul

Published

2020

27. Blood Cholesterol and Triglycerides Associate with Right Ventricular Function in Pulmonary Hypertension

Author

Fakhry, Battoul, primary, Peterson, Laura, additional, Comhair, Suzy A.A., additional, Sharp, Jacqueline, additional, Park, Margaret M., additional, Tang, W.H. Wilson, additional, Neumann, Donald R., additional, DiFilippo, Frank P., additional, Farha, Samar, additional, Erzurum, Serpil C., additional, and Mulya, Anny, additional

Published

2024

28. Increased mitochondrial arginine metabolism supports bioenergetics in asthma

Author

Xu, Weiling, Ghosh, Sudakshina, Comhair, Suzy AA, Asosingh, Kewal, Janocha, Allison J, Mavrakis, Deloris A, Bennett, Carole D, Gruca, Lourdes L, Graham, Brian B, Queisser, Kimberly A, Kao, Christina C, Wedes, Samuel H, Petrich, John M, Tuder, Rubin M, Kalhan, Satish C, and Erzurum, Serpil C

Subjects

Asthma, Lung, 2.1 Biological and endogenous factors, Aetiology, Respiratory, Adult, Animals, Arginine, Bronchial Hyperreactivity, Electron Transport Complex I, Energy Metabolism, Female, Humans, Inflammation, Interleukin-13, Interleukin-17, Male, Mice, Mitochondria, Nitric Oxide Synthase Type II, Phosphorylation, STAT6 Transcription Factor, Th2 Cells, Medical and Health Sciences, Immunology

Abstract

High levels of arginine metabolizing enzymes, including inducible nitric oxide synthase (iNOS) and arginase (ARG), are typical in asthmatic airway epithelium; however, little is known about the metabolic effects of enhanced arginine flux in asthma. Here, we demonstrated that increased metabolism sustains arginine availability in asthmatic airway epithelium with consequences for bioenergetics and inflammation. Expression of iNOS, ARG2, arginine synthetic enzymes, and mitochondrial respiratory complexes III and IV was elevated in asthmatic lung samples compared with healthy controls. ARG2 overexpression in a human bronchial epithelial cell line accelerated oxidative bioenergetic pathways and suppressed hypoxia-inducible factors (HIFs) and phosphorylation of the signal transducer for atopic Th2 inflammation STAT6 (pSTAT6), both of which are implicated in asthma etiology. Arg2-deficient mice had lower mitochondrial membrane potential and greater HIF-2α than WT animals. In an allergen-induced asthma model, mice lacking Arg2 had greater Th2 inflammation than WT mice, as indicated by higher levels of pSTAT6, IL-13, IL-17, eotaxin, and eosinophils and more mucus metaplasia. Bone marrow transplants from Arg2-deficient mice did not affect airway inflammation in recipient mice, supporting resident lung cells as the drivers of elevated Th2 inflammation. These data demonstrate that arginine flux preserves cellular respiration and suppresses pathological signaling events that promote inflammation in asthma.

Published

2016

29. Plasma interleukin-6 concentrations, metabolic dysfunction, and asthma severity: a cross-sectional analysis of two cohorts

Author

Peters, Michael C, McGrath, Kelly Wong, Hawkins, Gregory A, Hastie, Annette T, Levy, Bruce D, Israel, Elliot, Phillips, Brenda R, Mauger, David T, Comhair, Suzy A, Erzurum, Serpil C, Johansson, Mats W, Jarjour, Nizar N, Coverstone, Andrea M, Castro, Mario, Holguin, Fernando, Wenzel, Sally E, Woodruff, Prescott G, Bleecker, Eugene R, Fahy, John V, and National Heart, Lung

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Asthma, Clinical Research, Obesity, Lung, Respiratory, Adult, Cohort Studies, Cross-Sectional Studies, Disease Progression, Female, Forced Expiratory Volume, Humans, Inflammation, Interleukin-6, Male, Middle Aged, Severity of Illness Index, National Heart, Lung, and Blood Institute Severe Asthma Research Program, Public Health and Health Services, Other Medical and Health Sciences, Cardiovascular medicine and haematology, Clinical sciences

Abstract

BackgroundSevere asthma is a complex heterogeneous disease associated with older age and obesity. The presence of eosinophilic (type 2) inflammation in some but not all patients with severe asthma predicts responsiveness to current treatments, but new treatment approaches will require a better understanding of non-type 2 mechanisms of severe asthma. We considered the possibility that systemic inflammation, which arises in subgroups of obese and older patients, increases the severity of asthma. Interleukin-6 (IL-6) is a biomarker of systemic inflammation and metabolic dysfunction, and we aimed to explore the association between IL-6 concentrations, metabolic dysfunction, and asthma severity.MethodsIn this cross-sectional analysis, patients were recruited from two cohorts: mainly non-severe asthmatics from the University of California San Francisco (UCSF) and mainly severe asthmatics from the Severe Asthma Research Program (SARP). We generated a reference range for plasma IL-6 in a cohort of healthy control patients. We compared the clinical characteristics of asthmatics with plasma IL-6 concentrations above (IL-6 high) and below (IL-6 low) the upper 95% centile value for plasma IL-6 concentration in the healthy cohort. We also compared how pulmonary function, frequency of asthma exacerbations, and frequency of severe asthma differed between IL-6 low and IL-6 high asthma populations in the two asthma cohorts.FindingsBetween Jan 1, 2005, and Dec 31, 2014, we recruited 249 patients from UCSF and between Nov 1, 2012, and Oct 1, 2014, we recruited 387 patients from SARP. The upper 95th centile value for plasma IL-6 concentration in the healthy cohort (n=93) was 3·1 pg/mL, and 14% (36/249) of UCSF cohort and 26% (102/387) of the SARP cohort had plasma IL-6 concentrations above this upper limit. The IL-6 high patients in both asthma cohorts had a significantly higher average BMI (p

Published

2016

30. Protein disulfide isomerase–endoplasmic reticulum resident protein 57 regulates allergen-induced airways inflammation, fibrosis, and hyperresponsiveness

Author

Hoffman, Sidra M, Chapman, David G, Lahue, Karolyn G, Cahoon, Jonathon M, Rattu, Gurkiranjit K, Daphtary, Nirav, Aliyeva, Minara, Fortner, Karen A, Erzurum, Serpil C, Comhair, Suzy AA, Woodruff, Prescott G, Bhakta, Nirav, Dixon, Anne E, Irvin, Charles G, Janssen-Heininger, Yvonne MW, Poynter, Matthew E, and Anathy, Vikas

Subjects

Biomedical and Clinical Sciences, Immunology, Clinical Research, Health Effects of Indoor Air Pollution, Lung, Asthma, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Respiratory, Allergens, Animals, B-Lymphocytes, Biopsy, Caspase 3, Cytokines, Disease Models, Animal, Female, Fibrosis, Gene Expression, Humans, Male, Mice, Mice, Transgenic, Protein Disulfide-Isomerases, Respiratory Hypersensitivity, Respiratory Mucosa, T-Lymphocytes, bcl-2 Homologous Antagonist-Killer Protein, Unfolded protein response, endoplasmic reticulum stress, asthma, house dust mite, protein disulfide isomerase, endoplasmic reticulum protein 57, recombination-activating gene 1, epithelium, airways hyperresponsiveness, Allergy

Abstract

BackgroundEvidence for association between asthma and the unfolded protein response is emerging. Endoplasmic reticulum resident protein 57 (ERp57) is an endoplasmic reticulum-localized redox chaperone involved in folding and secretion of glycoproteins. We have previously demonstrated that ERp57 is upregulated in allergen-challenged human and murine lung epithelial cells. However, the role of ERp57 in asthma pathophysiology is unknown.ObjectivesHere we sought to examine the contribution of airway epithelium-specific ERp57 in the pathogenesis of allergic asthma.MethodsWe examined the expression of ERp57 in human asthmatic airway epithelium and used murine models of allergic asthma to evaluate the relevance of epithelium-specific ERp57.ResultsLung biopsy specimens from asthmatic and nonasthmatic patients revealed a predominant increase in ERp57 levels in epithelium of asthmatic patients. Deletion of ERp57 resulted in a significant decrease in inflammatory cell counts and airways resistance in a murine model of allergic asthma. Furthermore, we observed that disulfide bridges in eotaxin, epidermal growth factor, and periostin were also decreased in the lungs of house dust mite-challenged ERp57-deleted mice. Fibrotic markers, such as collagen and α smooth muscle actin, were also significantly decreased in the lungs of ERp57-deleted mice. Furthermore, adaptive immune responses were dispensable for house dust mite-induced endoplasmic reticulum stress and airways fibrosis.ConclusionsHere we show that ERp57 levels are increased in the airway epithelium of asthmatic patients and in mice with allergic airways disease. The ERp57 level increase is associated with redox modification of proinflammatory, apoptotic, and fibrotic mediators and contributes to airways hyperresponsiveness. The strategies to inhibit ERp57 specifically within the airways epithelium might provide an opportunity to alleviate the allergic asthma phenotype.

Published

2016

31. The Role of ACT Score in Mepolizumab Discontinuation

Author

Solanki, Neha, primary, Beck, Brittany, additional, Labadia, Monica, additional, Smith, Kevin, additional, Peterson, Laura, additional, King, Stephanie, additional, Micklewright, Sarah, additional, Pennington, Emily, additional, Farooq, Sobia, additional, Zhang, Peng, additional, Aronica, Mark, additional, Zein, Joe, additional, Khatri, Sumita, additional, Comhair, Suzy, additional, and Erzurum, Serpil, additional

Published

2023

32. Author Correction: Single-cell transcriptomic profile of human pulmonary artery endothelial cells in health and pulmonary arterial hypertension

Author

Asosingh, Kewal, Comhair, Suzy, Mavrakis, Lori, Xu, Weiling, Horton, Dean, Taylor, Ian, Tkachenko, Svyatoslav, Hu, Bo, and Erzurum, Serpil

Published

2021

33. Single-cell transcriptomic profile of human pulmonary artery endothelial cells in health and pulmonary arterial hypertension

Author

Asosingh, Kewal, Comhair, Suzy, Mavrakis, Lori, Xu, Weiling, Horton, Dean, Taylor, Ian, Tkachenko, Svyatoslav, Hu, Bo, and Erzurum, Serpil

Published

2021

34. Assessing the clinico‐immunological profile of patients with obesity and chronic rhinosinusitis

Author

Chaaban, Mohamad R., primary, Asosingh, Kewal, additional, Comhair, Suzy, additional, and Hoying, David, additional

Published

2023

35. Asthma severity and corticosteroid response depend on variable type 1 and type 2 inflammation in the airway

Author

Fahy, John V., primary, Jackson, Nathan D., additional, Sajuthi, Satria P., additional, Pruesse, Elmar, additional, Moore, Camille M., additional, Everman, Jamie L., additional, Rios, Cydney, additional, Tang, Monica, additional, Gauthier, Marc, additional, Wenzel, Sally E., additional, Bleecker, Eugene R., additional, Castro, Mario, additional, Comhair, Suzy A., additional, Erzurum, Serpil C., additional, Hastie, Annette T., additional, Moore, Wendy, additional, Isreal, Elliot, additional, Levy, Bruce D., additional, Denlinger, Loren, additional, Jarjour, Nizar N., additional, Johansson, Mats W., additional, Mauger, David T., additional, Phillips, Brenda R., additional, Sumino, Kaharu, additional, Woodruff, Prescott G., additional, Peters, Michael C., additional, and Seibold, Max A., additional

Published

2023

36. Kynurenine pathway metabolism evolves with development of preclinical and scleroderma-associated pulmonary arterial hypertension

Author

Simpson, Catherine E., primary, Ambade, Anjira S., additional, Harlan, Robert, additional, Roux, Aurelie, additional, Aja, Susan, additional, Graham, David, additional, Shah, Ami A., additional, Hummers, Laura K., additional, Hemnes, Anna R., additional, Leopold, Jane A., additional, Horn, Evelyn M., additional, Berman-Rosenzweig, Erika S., additional, Grunig, Gabrielle, additional, Aldred, Micheala A., additional, Barnard, John, additional, Comhair, Suzy A.A., additional, Tang, W. H. Wilson, additional, Griffiths, Megan, additional, Rischard, Franz, additional, Frantz, Robert P., additional, Erzurum, Serpil C., additional, Beck, Gerald J., additional, Hill, Nicholas S., additional, Mathai, Stephen C., additional, Hassoun, Paul M., additional, and Damico, Rachel L., additional

Published

2023

37. The Role ACT Score in Mepolizumab Discontinuation

Author

Solanki, Neha, primary, Beck, Brittany, additional, Labadia, Monica, additional, Smith, Kevin, additional, Peterson, Laura, additional, King, Stephanie, additional, Micklewright, Sarah, additional, Pennington, Emily, additional, Farooq, Sobia, additional, Zhang, Peng, additional, Aronica, Mark, additional, Zein, Joe, additional, Khatri, Sumita, additional, Comhair, Suzy, additional, and Erzurum, Serpil, additional

Published

2023

38. Epigenome-wide DNA methylation association study of circulating IgE levels identifies novel targets for asthma

Author

Recto, Kathryn, primary, Kachroo, Priyadarshini, additional, Huan, Tianxiao, additional, Van Den Berg, David, additional, Lee, Gha Young, additional, Bui, Helena, additional, Lee, Dong Heon, additional, Gereige, Jessica, additional, Yao, Chen, additional, Hwang, Shih-Jen, additional, Joehanes, Roby, additional, Weiss, Scott T., additional, O’Connor, George T., additional, Levy, Daniel, additional, DeMeo, Dawn L., additional, Abe, Namiko, additional, Abecasis, Gonçalo, additional, Aguet, Francois, additional, Albert, Christine, additional, Almasy, Laura, additional, Alonso, Alvaro, additional, Ament, Seth, additional, Anderson, Peter, additional, Anugu, Pramod, additional, Applebaum-Bowden, Deborah, additional, Ardlie, Kristin, additional, Arking, Dan, additional, Arnett, Donna K., additional, Ashley-Koch, Allison, additional, Aslibekyan, Stella, additional, Assimes, Tim, additional, Auer, Paul, additional, Avramopoulos, Dimitrios, additional, Ayas, Najib, additional, Balasubramanian, Adithya, additional, Barnard, John, additional, Barnes, Kathleen, additional, Barr, R. Graham, additional, Barron-Casella, Emily, additional, Barwick, Lucas, additional, Beaty, Terri, additional, Beck, Gerald, additional, Becker, Diane, additional, Becker, Lewis, additional, Beer, Rebecca, additional, Beitelshees, Amber, additional, Benjamin, Emelia, additional, Benos, Takis, additional, Bezerra, Marcos, additional, Bielak, Larry, additional, Bis, Joshua, additional, Blackwell, Thomas, additional, Blangero, John, additional, Blue, Nathan, additional, Boerwinkle, Eric, additional, Bowden, Donald W., additional, Bowler, Russell, additional, Brody, Jennifer, additional, Broeckel, Ulrich, additional, Broome, Jai, additional, Brown, Deborah, additional, Bunting, Karen, additional, Burchard, Esteban, additional, Bustamante, Carlos, additional, Buth, Erin, additional, Cade, Brian, additional, Cardwell, Jonathan, additional, Carey, Vincent, additional, Carrier, Julie, additional, Carson, April P., additional, Carty, Cara, additional, Casaburi, Richard, additional, Casas Romero, Juan P., additional, Casella, James, additional, Castaldi, Peter, additional, Chaffin, Mark, additional, Chang, Christy, additional, Chang, Yi-Cheng, additional, Chasman, Daniel, additional, Chavan, Sameer, additional, Chen, Bo-Juen, additional, Chen, Wei-Min, additional, Ida Chen, Yii-Der, additional, Cho, Michael, additional, Choi, Seung Hoan, additional, Chuang, Lee-Ming, additional, Chung, Mina, additional, Chung, Ren-Hua, additional, Clish, Clary, additional, Comhair, Suzy, additional, Conomos, Matthew, additional, Cornell, Elaine, additional, Correa, Adolfo, additional, Crandall, Carolyn, additional, Crapo, James, additional, Cupples, L. Adrienne, additional, Curran, Joanne, additional, Curtis, Jeffrey, additional, Custer, Brian, additional, Damcott, Coleen, additional, Darbar, Dawood, additional, David, Sean, additional, Davis, Colleen, additional, Daya, Michelle, additional, de Andrade, Mariza, additional, de las Fuentes, Lisa, additional, de Vries, Paul, additional, DeBaun, Michael, additional, Deka, Ranjan, additional, DeMeo, Dawn, additional, Devine, Scott, additional, Dinh, Huyen, additional, Doddapaneni, Harsha, additional, Duan, Qing, additional, Dugan-Perez, Shannon, additional, Duggirala, Ravi, additional, Durda, Jon Peter, additional, Dutcher, Susan K., additional, Eaton, Charles, additional, Ekunwe, Lynette, additional, El Boueiz, Adel, additional, Ellinor, Patrick, additional, Emery, Leslie, additional, Erzurum, Serpil, additional, Farber, Charles, additional, Farek, Jesse, additional, Fingerlin, Tasha, additional, Flickinger, Matthew, additional, Fornage, Myriam, additional, Franceschini, Nora, additional, Frazar, Chris, additional, Fu, Mao, additional, Fullerton, Stephanie M., additional, Fulton, Lucinda, additional, Gabriel, Stacey, additional, Gan, Weiniu, additional, Gao, Shanshan, additional, Gao, Yan, additional, Gass, Margery, additional, Geiger, Heather, additional, Gelb, Bruce, additional, Geraci, Mark, additional, Germer, Soren, additional, Gerszten, Robert, additional, Ghosh, Auyon, additional, Gibbs, Richard, additional, Gignoux, Chris, additional, Gladwin, Mark, additional, Glahn, David, additional, Gogarten, Stephanie, additional, Gong, Da-Wei, additional, Goring, Harald, additional, Graw, Sharon, additional, Gray, Kathryn J., additional, Grine, Daniel, additional, Gross, Colin, additional, Gu, C. Charles, additional, Guan, Yue, additional, Guo, Xiuqing, additional, Gupta, Namrata, additional, Haessler, Jeff, additional, Hall, Michael, additional, Han, Yi, additional, Hanly, Patrick, additional, Harris, Daniel, additional, Hawley, Nicola L., additional, He, Jiang, additional, Heavner, Ben, additional, Heckbert, Susan, additional, Hernandez, Ryan, additional, Herrington, David, additional, Hersh, Craig, additional, Hidalgo, Bertha, additional, Hixson, James, additional, Hobbs, Brian, additional, Hokanson, John, additional, Hong, Elliott, additional, Hoth, Karin, additional, Hsiung, Chao (Agnes), additional, Hu, Jianhong, additional, Hung, Yi-Jen, additional, Huston, Haley, additional, Hwu, Chii Min, additional, Irvin, Marguerite Ryan, additional, Jackson, Rebecca, additional, Jain, Deepti, additional, Jaquish, Cashell, additional, Johnsen, Jill, additional, Johnson, Andrew, additional, Johnson, Craig, additional, Johnston, Rich, additional, Jones, Kimberly, additional, Kang, Hyun Min, additional, Kaplan, Robert, additional, Kardia, Sharon, additional, Kelly, Shannon, additional, Kenny, Eimear, additional, Kessler, Michael, additional, Khan, Alyna, additional, Khan, Ziad, additional, Kim, Wonji, additional, Kimoff, John, additional, Kinney, Greg, additional, Konkle, Barbara, additional, Kooperberg, Charles, additional, Kramer, Holly, additional, Lange, Christoph, additional, Lange, Ethan, additional, Lange, Leslie, additional, Laurie, Cathy, additional, Laurie, Cecelia, additional, LeBoff, Meryl, additional, Lee, Jiwon, additional, Lee, Sandra, additional, Lee, Wen-Jane, additional, LeFaive, Jonathon, additional, Levine, David, additional, Lewis, Joshua, additional, Li, Xiaohui, additional, Li, Yun, additional, Lin, Henry, additional, Lin, Honghuang, additional, Lin, Xihong, additional, Liu, Simin, additional, Liu, Yongmei, additional, Liu, Yu, additional, Loos, Ruth J.F., additional, Lubitz, Steven, additional, Lunetta, Kathryn, additional, Luo, James, additional, Magalang, Ulysses, additional, Mahaney, Michael, additional, Make, Barry, additional, Manichaikul, Ani, additional, Manning, Alisa, additional, Manson, JoAnn, additional, Martin, Lisa, additional, Marton, Melissa, additional, Mathai, Susan, additional, Mathias, Rasika, additional, May, Susanne, additional, McArdle, Patrick, additional, McDonald, Merry-Lynn, additional, McFarland, Sean, additional, McGarvey, Stephen, additional, McGoldrick, Daniel, additional, McHugh, Caitlin, additional, McNeil, Becky, additional, Mei, Hao, additional, Meigs, James, additional, Menon, Vipin, additional, Mestroni, Luisa, additional, Metcalf, Ginger, additional, Meyers, Deborah A., additional, Mignot, Emmanuel, additional, Mikulla, Julie, additional, Min, Nancy, additional, Minear, Mollie, additional, Minster, Ryan L., additional, Mitchell, Braxton D., additional, Moll, Matt, additional, Momin, Zeineen, additional, Montasser, May E., additional, Montgomery, Courtney, additional, Muzny, Donna, additional, Mychaleckyj, Josyf C., additional, Nadkarni, Girish, additional, Naik, Rakhi, additional, Naseri, Take, additional, Natarajan, Pradeep, additional, Nekhai, Sergei, additional, Nelson, Sarah C., additional, Neltner, Bonnie, additional, Nessner, Caitlin, additional, Nickerson, Deborah, additional, Nkechinyere, Osuji, additional, North, Kari, additional, O'Connell, Jeff, additional, O'Connor, Tim, additional, Ochs-Balcom, Heather, additional, Okwuonu, Geoffrey, additional, Pack, Allan, additional, Paik, David T., additional, Palmer, Nicholette, additional, Pankow, James, additional, Papanicolaou, George, additional, Parker, Cora, additional, Peloso, Gina, additional, Peralta, Juan Manuel, additional, Perez, Marco, additional, Perry, James, additional, Peters, Ulrike, additional, Peyser, Patricia, additional, Phillips, Lawrence S., additional, Pleiness, Jacob, additional, Pollin, Toni, additional, Post, Wendy, additional, Powers Becker, Julia, additional, Preethi Boorgula, Meher, additional, Preuss, Michael, additional, Psaty, Bruce, additional, Qasba, Pankaj, additional, Qiao, Dandi, additional, Qin, Zhaohui, additional, Rafaels, Nicholas, additional, Raffield, Laura, additional, Rajendran, Mahitha, additional, Ramachandran, Vasan S., additional, Rao, D.C., additional, Rasmussen-Torvik, Laura, additional, Ratan, Aakrosh, additional, Redline, Susan, additional, Reed, Robert, additional, Reeves, Catherine, additional, Regan, Elizabeth, additional, Reiner, Alex, additional, Reupena, Muagututi‘a Sefuiva, additional, Rice, Ken, additional, Rich, Stephen, additional, Robillard, Rebecca, additional, Robine, Nicolas, additional, Roden, Dan, additional, Roselli, Carolina, additional, Rotter, Jerome, additional, Ruczinski, Ingo, additional, Runnels, Alexi, additional, Russell, Pamela, additional, Ruuska, Sarah, additional, Ryan, Kathleen, additional, Sabino, Ester Cerdeira, additional, Saleheen, Danish, additional, Salimi, Shabnam, additional, Salvi, Sejal, additional, Salzberg, Steven, additional, Sandow, Kevin, additional, Sankaran, Vijay G., additional, Santibanez, Jireh, additional, Schwander, Karen, additional, Schwartz, David, additional, Sciurba, Frank, additional, Seidman, Christine, additional, Seidman, Jonathan, additional, Sériès, Frédéric, additional, Sheehan, Vivien, additional, Sherman, Stephanie L., additional, Shetty, Amol, additional, Shetty, Aniket, additional, Sheu, Wayne Hui-Heng, additional, Shoemaker, M. Benjamin, additional, Silver, Brian, additional, Silverman, Edwin, additional, Skomro, Robert, additional, Smith, Albert Vernon, additional, Smith, Jennifer, additional, Smith, Josh, additional, Smith, Nicholas, additional, Smith, Tanja, additional, Smoller, Sylvia, additional, Snively, Beverly, additional, Snyder, Michael, additional, Sofer, Tamar, additional, Sotoodehnia, Nona, additional, Stilp, Adrienne M., additional, Storm, Garrett, additional, Streeten, Elizabeth, additional, Su, Jessica Lasky, additional, Sung, Yun Ju, additional, Sylvia, Jody, additional, Szpiro, Adam, additional, Taliun, Daniel, additional, Tang, Hua, additional, Taub, Margaret, additional, Taylor, Kent, additional, Taylor, Matthew, additional, Taylor, Simeon, additional, Telen, Marilyn, additional, Thornton, Timothy A., additional, Threlkeld, Machiko, additional, Tinker, Lesley, additional, Tirschwell, David, additional, Tishkoff, Sarah, additional, Tiwari, Hemant, additional, Tong, Catherine, additional, Tracy, Russell, additional, Tsai, Michael, additional, Vaidya, Dhananjay, additional, VandeHaar, Peter, additional, Vrieze, Scott, additional, Walker, Tarik, additional, Wallace, Robert, additional, Walts, Avram, additional, Wang, Fei Fei, additional, Wang, Heming, additional, Wang, Jiongming, additional, Watson, Karol, additional, Watt, Jennifer, additional, Weeks, Daniel E., additional, Weinstock, Joshua, additional, Weir, Bruce, additional, Weng, Lu-Chen, additional, Wessel, Jennifer, additional, Willer, Cristen, additional, Williams, Kayleen, additional, Williams, L. Keoki, additional, Williams, Scott, additional, Wilson, Carla, additional, Wilson, James, additional, Winterkorn, Lara, additional, Wong, Quenna, additional, Wu, Baojun, additional, Wu, Joseph, additional, Xu, Huichun, additional, Yanek, Lisa, additional, Yang, Ivana, additional, Yu, Ketian, additional, Zekavat, Seyedeh Maryam, additional, Zhang, Yingze, additional, Zhao, Snow Xueyan, additional, Zhao, Wei, additional, Zhu, Xiaofeng, additional, Ziv, Elad, additional, Zody, Michael, additional, and Zoellner, Sebastian, additional

Published

2023

39. Fasting 2-deoxy-2-[18F]fluoro-D-glucose positron emission tomography to detect metabolic changes in pulmonary arterial hypertension hearts over 1 year.

Author

Lundgrin, Erika L, Park, Margaret M, Sharp, Jacqueline, Tang, WH Wilson, Thomas, James D, Asosingh, Kewal, Comhair, Suzy A, DiFilippo, Frank P, Neumann, Donald R, Davis, Laura, Graham, Brian B, Tuder, Rubin M, Dostanic, Iva, and Erzurum, Serpil C

Subjects

Heart Ventricles, Humans, Hypertension, Pulmonary, Ventricular Dysfunction, Right, Neovascularization, Pathologic, Fluorodeoxyglucose F18, Glucose, Erythropoietin, Antigens, CD, Positron-Emission Tomography, Echocardiography, Monitoring, Physiologic, Reproducibility of Results, Cell Hypoxia, Adult, Middle Aged, Female, Male, Hypoxia-Inducible Factor 1, alpha Subunit, Adrenergic beta-1 Receptor Antagonists, Familial Primary Pulmonary Hypertension, Heart Disease, Biomedical Imaging, Cardiovascular, Rare Diseases, Clinical Research

Abstract

BackgroundThe development of tools to monitor the right ventricle in pulmonary arterial hypertension (PAH) is of clinical importance. PAH is associated with pathologic expression of the transcription factor hypoxia-inducible factor (HIF)-1α, which induces glycolytic metabolism and mobilization of proangiogenic progenitor (CD34(+)CD133(+)) cells. We hypothesized that PAH cardiac myocytes have a HIF-related switch to glycolytic metabolism that can be detected with fasting 2-deoxy-2-[(18)F]fluoro-d-glucose positron emission tomography (FDG-PET) and that glucose uptake is informative for cardiac function.MethodsSix healthy control subjects and 14 patients with PAH underwent fasting FDG-PET and echocardiogram. Blood CD34(+)CD133(+) cells and erythropoietin were measured as indicators of HIF activation. Twelve subjects in the PAH cohort underwent repeat studies 1 year later to determine if changes in FDG uptake were related to changes in echocardiographic parameters or to measures of HIF activation.Measurements and resultsFDG uptake in the right ventricle was higher in patients with PAH than in healthy control subjects and correlated with echocardiographic measures of cardiac dysfunction and circulating CD34(+)CD133(+) cells but not erythropoietin. Among patients with PAH, FDG uptake was lower in those receiving β-adrenergic receptor blockers. Changes in FDG uptake over time were related to changes in echocardiographic parameters and CD34(+)CD133(+) cell numbers. Immunohistochemistry of explanted PAH hearts of patients undergoing transplantation revealed that HIF-1α was present in myocyte nuclei but was weakly detectable in control hearts.ConclusionsPAH hearts have pathologic glycolytic metabolism that is quantitatively related to cardiac dysfunction over time, suggesting that metabolic imaging may be useful in therapeutic monitoring of patients.

Published

2013

40. Integrative proteomics and phosphoproteomics in pulmonary arterial hypertension

Author

Xu, Weiling, Comhair, Suzy A. A., Chen, Ruoying, Hu, Bo, Hou, Yuan, Zhou, Yadi, Mavrakis, Lori A., Janocha, Allison J., Li, Ling, Zhang, Dongmei, Willard, Belinda B., Asosingh, Kewal, Cheng, Feixiong, and Erzurum, Serpil C.

Published

2019

41. Metabolomic Differences in Connective Tissue Disease–Associated Versus Idiopathic Pulmonary Arterial Hypertension in the PVDOMICS Cohort.

Author

Simpson, Catherine E., Hemnes, Anna R., Griffiths, Megan, Grunig, Gabriele, Tang, W. H. Wilson, Garcia, Joe G. N., Barnard, John, Comhair, Suzy A., Damico, Rachel L., Mathai, Stephen C., and Hassoun, Paul M.

Subjects

LIPID metabolism, PULMONARY arterial hypertension, BLOOD pressure, PULMONARY circulation, METABOLOMICS, RIGHT heart ventricle, MACHINE learning, REGRESSION analysis, PULMONARY artery, CONNECTIVE tissue diseases, VASODILATORS, SEX hormones, RESEARCH funding, PHENOTYPES, LONGITUDINAL method, ALGORITHMS, FATTY acids, DISEASE complications

Abstract

Objective: Patients with connective tissue disease–associated pulmonary arterial hypertension (CTD‐PAH) experience worse survival and derive less benefit from pulmonary vasodilator therapies than patients with idiopathic PAH (IPAH). We sought to identify differential metabolism in patients with CTD‐PAH versus patients with IPAH that might underlie these observed clinical differences. Methods: Adult participants with CTD‐PAH (n = 141) and IPAH (n = 165) from the Pulmonary Vascular Disease Phenomics (PVDOMICS) study were included. Detailed clinical phenotyping was performed at cohort enrollment, including broad‐based global metabolomic profiling of plasma samples. Participants were followed prospectively for ascertainment of outcomes. Supervised and unsupervised machine learning algorithms and regression models were used to compare CTD‐PAH versus IPAH metabolomic profiles and to measure metabolite‐phenotype associations and interactions. Gradients across the pulmonary circulation were assessed using paired mixed venous and wedged samples in a subset of 115 participants. Results: Metabolomic profiles distinguished CTD‐PAH from IPAH, with patients with CTD‐PAH demonstrating aberrant lipid metabolism with lower circulating levels of sex steroid hormones and higher free fatty acids (FAs) and FA intermediates. Acylcholines were taken up by the right ventricular–pulmonary vascular (RV‐PV) circulation, particularly in CTD‐PAH, while free FAs and acylcarnitines were released. In both PAH subtypes, dysregulated lipid metabolites, among others, were associated with hemodynamic and RV measurements and with transplant‐free survival. Conclusions: CTD‐PAH is characterized by aberrant lipid metabolism that may signal shifted metabolic substrate utilization. Abnormalities in RV‐PV FA metabolism may imply a reduced capacity for mitochondrial beta oxidation within the diseased pulmonary circulation. [ABSTRACT FROM AUTHOR]

Published

2023

42. Immunometabolic rewiring in long COVID patients with chronic headache

Author

Foo, Suan-Sin, primary, Chen, Weiqiang, additional, Jung, Kyle L., additional, Azamor, Tamiris, additional, Choi, Un Yung, additional, Zhang, Pengfei, additional, Comhair, Suzy AA, additional, Erzurum, Serpil C., additional, Jehi, Lara, additional, and Jung, Jae U., additional

Published

2023

43. Isolation and analysis of sugar nucleotides using solid phase extraction and fluorophore assisted carbohydrate electrophoresis

Author

Barnes, Jarrod, Tian, Liping, Loftis, Jacqueline, Hiznay, James, Comhair, Suzy, Lauer, Mark, and Dweik, Raed

Published

2016

44. Soluble guanylate cyclase as an alternative target for bronchodilator therapy in asthma

Author

Ghosh, Arnab, Koziol-White, Cynthia J., Asosingh, Kewal, Cheng, Georgina, Ruple, Lisa, Groneberg, Dieter, Friebe, Andreas, Comhair, Suzy A. A., Stasch, Johannes-Peter, Panettieri, Reynold A., Aronica, Mark A., Erzurum, Serpil C., and Stuehr, Dennis J.

Published

2016

45. Injury-Induced Shedding of Extracellular Vesicles Depletes Endothelial Cells of Cav-1 (Caveolin-1) and Enables TGF-β (Transforming Growth Factor-β)–Dependent Pulmonary Arterial Hypertension

Author

Oliveira, Suellen D.S., Chen, Jiwang, Castellon, Maricela, Mao, Mao, Raj, J. Usha, Comhair, Suzy, Erzurum, Serpil, Silva, Claudia L.M., Machado, Roberto F., Bonini, Marcelo G., and Minshall, Richard D.

Published

2019

46. Vascular Endothelial Growth Factor Receptor 3 Regulates Endothelial Function Through β-Arrestin 1

Author

Ma, Zhiyuan, Yu, Yen-Rei, Badea, Cristian T., Kovacs, Jeffrey J., Xiong, Xinyu, Comhair, Suzy, Piantadosi, Claude A., and Rajagopal, Sudarshan

Published

2019

47. Bronchial epithelial cell transcriptional responses to inhaled corticosteroids dictate severe asthmatic outcomes

Author

Ginebaugh, Scott P., primary, Hagner, Matthias, additional, Ray, Anuradha, additional, Erzurum, Serpil C., additional, Comhair, Suzy A.A., additional, Denlinger, Loren C., additional, Jarjour, Nizar N., additional, Castro, Mario, additional, Woodruff, Prescott G., additional, Christenson, Stephanie A., additional, Bleecker, Eugene R., additional, Meyers, Deborah A., additional, Hastie, Annette T., additional, Moore, Wendy C., additional, Mauger, David T., additional, Israel, Elliot, additional, Levy, Bruce D., additional, Wenzel, Sally E., additional, and Camiolo, Matthew J., additional

Published

2023

48. Abstract 2053: Glucose Bioenergetics Regulate Protein O-GlcNAcylation in Human Airway Smooth Muscle Cells

Author

Mulya, Anny, primary, Mavrakis, Lori, additional, Hascall, Vincent, additional, Comhair, Suzy, additional, Panettieri, Reynold, additional, and Erzurum, Serpil, additional

Published

2023

49. Biomarker-based asthma phenotypes of corticosteroid response

Author

Cowan, Douglas C., Taylor, D. Robin, Peterson, Laura E., Cowan, Jan O., Palmay, Rochelle, Williamson, Avis, Hammel, Jef, Erzurum, Serpil C., Hazen, Stanley L., and Comhair, Suzy A.A.

Published

2015

50. Arginine metabolic endotypes in pulmonary arterial hypertension

Author

Kao, Christina C., Wedes, Samuel H., Hsu, Jean W., Bohren, Kurt M., Comhair, Suzy A. A., Jahoor, Farook, and Erzurum, Serpil C.

Published

2015