Your search keyword '"Vetrini, Francesco"' showing total 127 results

1. Systematic evaluation of genome sequencing for the diagnostic assessment of autism spectrum disorder and fetal structural anomalies.

Author

Lowther, Chelsea, Valkanas, Elise, Giordano, Jessica, Wang, Harold, Currall, Benjamin, OKeefe, Kathryn, Pierce-Hoffman, Emma, Kurtas, Nehir, Whelan, Christopher, Hao, Stephanie, Weisburd, Ben, Jalili, Vahid, Fu, Jack, Wong, Isaac, Collins, Ryan, Zhao, Xuefang, Austin-Tse, Christina, Evangelista, Emily, Lemire, Gabrielle, Aggarwal, Vimla, Lucente, Diane, Gauthier, Laura, Tolonen, Charlotte, Sahakian, Nareh, Stevens, Christine, An, Joon-Yong, Dong, Shan, MacKenzie, Tippi, Devlin, Bernie, Gilmore, Kelly, Powell, Bradford, Brandt, Alicia, Vetrini, Francesco, DiVito, Michelle, MacArthur, Daniel, Hodge, Jennelle, ODonnell-Luria, Anne, Rehm, Heidi, Vora, Neeta, Levy, Brynn, Brand, Harrison, Wapner, Ronald, Talkowski, Michael, Norton, Mary, and Sanders, Stephan

Subjects

genome sequencing, karyotype, microarray, exome sequencing, structural variant, autism spectrum disorder, structural anomaly, prenatal, first-tier, diagnostic, Female, Pregnancy, Humans, Autism Spectrum Disorder, Pregnancy Trimester, First, Ultrasonography, Prenatal, Chromosome Mapping, Exome

Abstract

Short-read genome sequencing (GS) holds the promise of becoming the primary diagnostic approach for the assessment of autism spectrum disorder (ASD) and fetal structural anomalies (FSAs). However, few studies have comprehensively evaluated its performance against current standard-of-care diagnostic tests: karyotype, chromosomal microarray (CMA), and exome sequencing (ES). To assess the clinical utility of GS, we compared its diagnostic yield against these three tests in 1,612 quartet families including an individual with ASD and in 295 prenatal families. Our GS analytic framework identified a diagnostic variant in 7.8% of ASD probands, almost 2-fold more than CMA (4.3%) and 3-fold more than ES (2.7%). However, when we systematically captured copy-number variants (CNVs) from the exome data, the diagnostic yield of ES (7.4%) was brought much closer to, but did not surpass, GS. Similarly, we estimated that GS could achieve an overall diagnostic yield of 46.1% in unselected FSAs, representing a 17.2% increased yield over karyotype, 14.1% over CMA, and 4.1% over ES with CNV calling or 36.1% increase without CNV discovery. Overall, GS provided an added diagnostic yield of 0.4% and 0.8% beyond the combination of all three standard-of-care tests in ASD and FSAs, respectively. This corresponded to nine GS unique diagnostic variants, including sequence variants in exons not captured by ES, structural variants (SVs) inaccessible to existing standard-of-care tests, and SVs where the resolution of GS changed variant classification. Overall, this large-scale evaluation demonstrated that GS significantly outperforms each individual standard-of-care test while also outperforming the combination of all three tests, thus warranting consideration as the first-tier diagnostic approach for the assessment of ASD and FSAs.

Published

2023

2. Variants in LRRC7 lead to intellectual disability, autism, aggression and abnormal eating behaviors

Author

Willim, Jana, Woike, Daniel, Greene, Daniel, Das, Sarada, Pfeifer, Kevin, Yuan, Weimin, Lindsey, Anika, Itani, Omar, Böhme, Amber L., Tibbe, Debora, Hönck, Hans-Hinrich, Hassani Nia, Fatemeh, Zech, Michael, Brunet, Theresa, Faivre, Laurence, Sorlin, Arthur, Vitobello, Antonio, Smol, Thomas, Colson, Cindy, Baranano, Kristin, Schatz, Krista, Bayat, Allan, Schoch, Kelly, Spillmann, Rebecca, Davis, Erica E., Conboy, Erin, Vetrini, Francesco, Platzer, Konrad, Neuser, Sonja, Gburek-Augustat, Janina, Grace, Alexandra Noel, Mitchell, Bailey, Stegmann, Alexander, Sinnema, Margje, Meeks, Naomi, Saunders, Carol, Cadieux-Dion, Maxime, Hoyer, Juliane, Van-Gils, Julien, de Sainte-Agathe, Jean-Madeleine, Thompson, Michelle L., Bebin, E. Martina, Weisz-Hubshman, Monika, Tabet, Anne-Claude, Verloes, Alain, Levy, Jonathan, Latypova, Xenia, Harder, Sönke, Silverman, Gary A., Pak, Stephen C., Schedl, Tim, Freson, Kathleen, Mumford, Andrew, Turro, Ernest, Schlein, Christian, Shashi, Vandana, and Kreienkamp, Hans-Jürgen

Published

2024

3. HNRNPC haploinsufficiency affects alternative splicing of intellectual disability-associated genes and causes a neurodevelopmental disorder

Author

Ambrose, J.C., Arumugam, P., Bevers, R., Bleda, M., Boardman-Pretty, F., Boustred, C.R., Brittain, H., Brown, M.A., Caulfield, M.J., Chan, G.C., Giess, A., Griffin, J.N., Hamblin, A., Henderson, S., Hubbard, T.J.P., Jackson, R., Jones, L.J., Kasperaviciute, D., Kayikci, M., Kousathanas, A., Lahnstein, L., Lakey, A., Leigh, S.E.A., Leong, I.U.S., Lopez, F.J., Maleady-Crowe, F., McEntagart, M., Minneci, F., Mitchell, J., Moutsianas, L., Mueller, M., Murugaesu, N., Need, A.C., O‘Donovan, P., Odhams, C.A., Patch, C., Perez-Gil, D., Pereira, M.B., Pullinger, J., Rahim, T., Rendon, A., Rogers, T., Savage, K., Sawant, K., Scott, R.H., Siddiq, A., Sieghart, A., Smith, S.C., Sosinsky, A., Stuckey, A., Tanguy, M., Taylor Tavares, A.L., Thomas, E.R.A., Thompson, S.R., Tucci, A., Welland, M.J., Williams, E., Witkowska, K., Wood, S.M., Zarowiecki, M., Acosta, Maria T., Adams, David R., Alvarez, Raquel L., Alvey, Justin, Allworth, Aimee, Andrews, Ashley, Ashley, Euan A., Afzali, Ben, Bacino, Carlos A., Bademci, Guney, Balasubramanyam, Ashok, Baldridge, Dustin, Bale, Jim, Bamshad, Michael, Barbouth, Deborah, Bayrak-Toydemir, Pinar, Beck, Anita, Beggs, Alan H., Behrens, Edward, Bejerano, Gill, Bellen, Hugo J., Bennet, Jimmy, Bernstein, Jonathan A., Berry, Gerard T., Bican, Anna, Bivona, Stephanie, Blue, Elizabeth, Bohnsack, John, Bonner, Devon, Botto, Lorenzo, Briere, Lauren C., Brown, Gabrielle, Burke, Elizabeth A., Burrage, Lindsay C., Butte, Manish J., Byers, Peter, Byrd, William E., Carey, John, Carrasquillo, Olveen, Cassini, Thomas, Chang, Ta Chen, Chanprasert, Sirisak, Chao, Hsiao-Tuan, Chinn, Ivan, Clark, Gary D., Coakley, Terra R., Cobban, Laurel A., Cogan, Joy D., Coggins, Matthew, Cole, F. Sessions, Colley, Heather A., Cope, Heidi, Corona, Rosario, Craigen, William J., Crouse, Andrew B., Cunningham, Michael, D'Souza, Precilla, Dai, Hongzheng, Dasari, Surendra, Davis, Joie, Dayal, Jyoti G., Delgado, Margaret, Dell'Angelica, Esteban C., Dipple, Katrina, Doherty, Daniel, Dorrani, Naghmeh, Doss, Argenia L., Douine, Emilie D., Earl, Dawn, Eckstein, David J., Emrick, Lisa T., Eng, Christine M., Falk, Marni, Fieg, Elizabeth L., Fisher, Paul G., Fogel, Brent L., Forghani, Irman, Fu, Jiayu, Gahl, William A., Glass, Ian, Goddard, Page C., Godfrey, Rena A., Grajewski, Alana, Halley, Meghan C., Hamid, Rizwan, Hanchard, Neal, Hassey, Kelly, Hayes, Nichole, High, Frances, Hing, Anne, Hisama, Fuki M., Holm, Ingrid A., Hom, Jason, Horike-Pyne, Martha, Huang, Alden, Huang, Yan, Hutchison, Sarah, Introne, Wendy, Isasi, Rosario, Izumi, Kosuke, Jarvik, Gail P., Jarvik, Jeffrey, Jayadev, Suman, Jean-Marie, Orpa, Jobanputra, Vaidehi, Kaitryn, Emerald, Ketkar, Shamika, Kiley, Dana, Kilich, Gonench, Kobren, Shilpa N., Kohane, Isaac S., Kohler, Jennefer N., Korrick, Susan, Krakow, Deborah, Krasnewich, Donna M., Kravets, Elijah, Lalani, Seema R., Lam, Byron, Lam, Christina, Lanpher, Brendan C., Lanza, Ian R., LeBlanc, Kimberly, Lee, Brendan H., Levitt, Roy, Lewis, Richard A., Liu, Pengfei, Liu, Xue Zhong, Longo, Nicola, Loo, Sandra K., Loscalzo, Joseph, Maas, Richard L., Macnamara, Ellen F., MacRae, Calum A., Maduro, Valerie V., Maghiro, AudreyStephannie, Mahoney, Rachel, Malicdan, May Christine, Mamounas, Laura A., Manolio, Teri A., Mao, Rong, Marom, Ronit, Marth, Gabor, Martin, Beth A., Martin, Martin G., Martínez-Agosto, Julian A., Marwaha, Shruti, McCauley, Jacob, McConkie-Rosell, Allyn, McCray, Alexa T., McGee, Elisabeth, Might, Matthew, Miller, Danny, Mirzaa, Ghayda, Morava, Eva, Moretti, Paolo, Morimoto, Marie, Mulvihill, John J., Nakano-Okuno, Mariko, Nelson, Stanley F., Nieves-Rodriguez, Shirley, Novacic, Donna, Oglesbee, Devin, Orengo, James P., Pace, Laura, Pak, Stephen, Pallais, J. Carl, Papp, Jeanette C., Parker, Neil H., Petcharet, Leoyklang, Phillips, John A., III, Posey, Jennifer E., Potocki, Lorraine, Swerdzewski, Barbara N., Quinlan, Aaron, Rao, Deepak A., Raper, Anna, Raskind, Wendy, Renteria, Genecee, Reuter, Chloe, Rives, Lynette, Robertson, Amy K., Rodan, Lance H., Rosenfeld, Jill A., Rosenthal, Elizabeth, Rossignol, Francis, Ruzhnikov, Maura, Sabaii, Marla, Sacco, Ralph, Sampson, Jacinda B., Saporta, Mario, Schaechter, Judy, Schedl, Timothy, Schoch, Kelly, Scott, Daryl A., Seto, Elaine, Sharma, Prashant, Shashi, Vandana, Shelkowitz, Emily, Sheppeard, Sam, Shin, Jimann, Silverman, Edwin, Sinsheimer, Janet, Sisco, Kathy, Smith, Edward, Smith, Kevin, Solnica-Krezel, Lilianna, Solomon, Ben, Spillmann, Rebecca, Stergachis, Andrew, Stoler, Joan, Sullivan, Kathleen, Sullivan, Jennifer, Sutton, Shirley, Sweetser, David A., Sybert, Virginia, Tabor, Holly K., Tan, Queenie K.-G., Tan, Amelia L., Tarakad, Arjun, Tekin, Mustafa, Telischi, Fred, Thorson, Willa, Tifft, Cynthia, Toro, Camilo, Tran, Alyssa A., Ungar, Rachel A., Urv, Tiina K., Vanderver, Adeline, Velinder, Matt, Viskochil, Dave, Vogel, Tiphanie P., Wahl, Colleen E., Walker, Melissa, Walley, Nicole M., Wambach, Jennifer, Wan, Jijun, Wang, Lee-kai, Wangler, Michael F., Ward, Patricia A., Wegner, Daniel, Weisz, Monika, Wener, Mark, Wenger, Tara, Westerfield, Monte, Wheeler, Matthew T., Whitlock, Jordan, Wolfe, Lynne A., Yamamoto, Shinya, Zhang, Zhe, Zuchner, Stephan, Niggl, Eva, Bouman, Arjan, Hoogenboezem, Remco M., Wallaard, Ilse, Park, Joohyun, Admard, Jakob, Wilke, Martina, Harris-Mostert, Emilio D.R.O., Elgersma, Minetta, Bain, Jennifer, Balasubramanian, Meena, Banka, Siddharth, Benke, Paul J., Bertrand, Miriam, Blesson, Alyssa E., Clayton-Smith, Jill, Ellingford, Jamie M., Gillentine, Madelyn A., Goodloe, Dana H., Haack, Tobias B., Jain, Mahim, Krantz, Ian, Luu, Sharon M., McPheron, Molly, Muss, Candace L., Raible, Sarah E., Robin, Nathaniel H., Spiller, Michael, Starling, Susan, Thiffault, Isabelle, Vetrini, Francesco, Witt, Dennis, Woods, Emily, Zhou, Dihong, Elgersma, Ype, and van Esbroeck, Annelot C.M.

Published

2023

4. CNVs cause autosomal recessive genetic diseases with or without involvement of SNV/indels

Author

Yuan, Bo, Wang, Lei, Liu, Pengfei, Shaw, Chad, Dai, Hongzheng, Cooper, Lance, Zhu, Wenmiao, Anderson, Stephanie A., Meng, Linyan, Wang, Xia, Wang, Yue, Xia, Fan, Xiao, Rui, Braxton, Alicia, Peacock, Sandra, Schmitt, Eric, Ward, Patricia A., Vetrini, Francesco, He, Weimin, Chiang, Theodore, Muzny, Donna, Gibbs, Richard A., Beaudet, Arthur L., Breman, Amy M., Smith, Janice, Cheung, Sau Wai, Bacino, Carlos A., Eng, Christine M., Yang, Yaping, Lupski, James R., and Bi, Weimin

Published

2020

5. A case of MBTPS1‐related disorder due to compound heterozygous variants in MBTPS1 gene: Genotype–phenotype expansion and the emergence of a novel syndrome.

Author

Liaqat, Khurram, Treat, Kayla, Mantcheva, Lili, Nasir, Abdul, Weaver, David D., Conboy, Erin, and Vetrini, Francesco

Abstract

MBTPS1 (NM_003791.4) encodes Site‐1 protease, a serine protease that functions sequentially with Site‐2 protease regulating cholesterol homeostasis and endoplasmic reticulum stress response. MBTPS1 pathogenic variants are associated with spondyloepiphyseal dysplasia, Kondo‐Fu type (MIM:618392; cataract, alopecia, oral mucosal disorder, and psoriasis‐like syndrome, and Silver–Russell‐like syndrome). In this report, we describe a 14‐year‐old female with a complex medical history including white matter volume loss, early‐onset cataracts, retrognathia, laryngomalacia, inguinal hernia, joint hypermobility, feeding dysfunction, and speech delay. Additionally, features of ectodermal dysplasia that she has include decreased sweating, heat intolerance, dysplastic nails, chronically dry skin, and abnormal hair growth issues. Exome sequencing analysis identified compound heterozygous variants in the MBTPS1 gene: c.2255G > T p.(Gly752Val) predicted to affect important function of the protein, which was inherited from the mother, and a splice site variant c.2831 + 5G > T, which was inherited from the father. The RNA‐seq analysis of the splice variant showed skipping of exon 21, predicted to result in frameshifting p.(Ser901fs28*) leading to non‐sense mediated decay. To our knowledge, only eight studies have been published that described the MBPTS1‐related disorders. Interestingly, we observed the features of ectodermal dysplasia in our patient that further expands the phenotypic spectrum of MBTPS1 gene‐related disorders. [ABSTRACT FROM AUTHOR]

Published

2024

6. Undiagnosed rare disease clinic identifies a novel UBE3A variant in two sisters with Angelman syndrome: The end of a diagnostic odyssey.

Author

Bruns, Rebecca, Liaqat, Khurram, Nasir, Abdul, Treat, Kayla, Murthy, Vinaya S., Mantcheva, Lili, Torres, Wilfredo, Conboy, Erin, and Vetrini, Francesco

Subjects

ANGELMAN syndrome, RARE diseases, DISABILITIES, UBIQUITIN ligases, DEVELOPMENTAL delay, MOVEMENT disorders

Abstract

Angelman syndrome (AS, MIM #105830) is a neurodevelopmental disorder characterized by severe intellectual disability, profound developmental delay, movement or balance problems, an excessively cheerful disposition, and seizures. AS results from inadequate expression of the maternal UBE3A gene (MIM #601623), which encodes an E3 ligase in the ubiquitin‐proteasome pathway. Here we present the case of two sisters with features consistent with AS who had negative methylation analyses. An autism/intellectual disability expanded panel revealed a maternally inherited novel UBE3A (NM_001354506.2) variant c.2443C>T p.(Pro815Ser) in both patients that was initially classified as a variant of uncertain significance. The patients were enrolled in Indiana University's Undiagnosed Rare Disease Clinic (URDC) to further investigate the variant. Additional data, including deep phenotyping, familial segregation analysis, and in silico studies, suggest that the variant is likely pathogenic. 3D modeling studies based on the available crystal structure revealed that the Pro815Ser variant can introduce more flexibility into the protein and alter its enzymatic activity. Recent literature confirms the pathogenic nature of the variant. Reanalysis of the UBE3A variant has heightened existing knowledge of AS and has offered this family an end to their diagnostic odyssey. [ABSTRACT FROM AUTHOR]

Published

2024

7. P588: De novo and inherited variants in DDX39B cause a novel neurodevelopmental syndrome characterized by hypotonia, epilepsy, and short stature

Author

Booth, Kevin, Jangam, Sharayu, Man Chun Chui, Martin, Treat, Kayla, Graziani, Lorenzo, Soldano, Alessia, White, Kerry, Christensen, Celanie, Lynnes, Ty, Yamamoto, Shinya, Kanca, Oguz, Tsang, Mandy, Lynch, Sally, Mullegama, Sureni, Baptista, Julia, Iancu, Daniela, Joss, Shelag, CY Mak, Christopher, Kwong, Anna, Bellen, Hugo, Conboy, Erin, Sanges, Remo, Wangler, Michael F., Hon-Yin Chung, Brian, and Vetrini, Francesco

Published

2024

8. P535: The undiagnosed rare disease clinic program of Indiana University: Lessons learned from the first 100 patients enrolled (Phase-I pilot)

Author

Liaqat, Khurram, Vetrini, Francesco, Conboy, Erin, Treat, Kayla, Mantcheva, Lili, Abreu, Marco, Schwantes-An, Tae-Hwi, Booth, Kevin, Ly, Reynold, Breman, Amy, Tayeh, Marwan, Helm, Benjamin, Graham, Brett, and Ware, Stephanie

Published

2024

9. P322: Case report: A splice site variant in COL4A6 may cause recurrent stroke

Author

Liaqat, Khurram, Vetrini, Francesco, Conboy, Erin, Treat, Kayla, and Booth, Kevin

Published

2024

10. Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Dharmadhikari, Avinash V., Ghosh, Rajarshi, Yuan, Bo, Liu, Pengfei, Dai, Hongzheng, Al Masri, Sami, Scull, Jennifer, Posey, Jennifer E., Jiang, Allen H., He, Weimin, Vetrini, Francesco, Braxton, Alicia A., Ward, Patricia, Chiang, Theodore, Qu, Chunjing, Gu, Shen, Shaw, Chad A., Smith, Janice L., Lalani, Seema, Stankiewicz, Pawel, Cheung, Sau-Wai, Bacino, Carlos A., Patel, Ankita, Breman, Amy M., Wang, Xia, Meng, Linyan, Xiao, Rui, Xia, Fan, Muzny, Donna, Gibbs, Richard A., Beaudet, Arthur L., Eng, Christine M., Lupski, James R., Yang, Yaping, and Bi, Weimin

Published

2019

11. Correction to: De novo and inherited TCF20 pathogenic variants are associated with intellectual disability, dysmorphic features, hypotonia, and neurological impairments with similarities to Smith–Magenis syndrome

Author

Vetrini, Francesco, McKee, Shane, Rosenfeld, Jill A., Suri, Mohnish, Lewis, Andrea M., Nugent, Kimberly Margaret, Roeder, Elizabeth, Littlejohn, Rebecca O., Holder, Sue, Zhu, Wenmiao, Alaimo, Joseph T., Graham, Brett, Harris, Jill M., Gibson, James B., Pastore, Matthew, McBride, Kim L., Komara, Makanko, Al-Gazali, Lihadh, Al Shamsi, Aisha, Fanning, Elizabeth A., Wierenga, Klaas J., Scott, Daryl A., Ben-Neriah, Ziva, Meiner, Vardiella, Cassuto, Hanoch, Elpeleg, Orly, Lloyd Holder Jr, J., Burrage, Lindsay C., Seaver, Laurie H., Van Maldergem, Lionel, Mahida, Sonal, Soul, Janet S., Marlatt, Margaret, Matyakhina, Ludmila, Vogt, Julie, Gold, June-Anne, Park, Soo-Mi, Varghese, Vinod, Lampe, Anne K., Kumar, Ajith, Lees, Melissa, Holder-Espinasse, Muriel, McConnell, Vivienne, Bernhard, Birgitta, Blair, Ed, Harrison, Victoria, The DDD study, Muzny, Donna M., Gibbs, Richard A., Elsea, Sarah H., Posey, Jennifer E., Bi, Weimin, Lalani, Seema, Xia, Fan, Yang, Yaping, Eng, Christine M., Lupski, James R., and Liu, Pengfei

Published

2019

12. De novo and inherited TCF20 pathogenic variants are associated with intellectual disability, dysmorphic features, hypotonia, and neurological impairments with similarities to Smith–Magenis syndrome

Author

Vetrini, Francesco, McKee, Shane, Rosenfeld, Jill A., Suri, Mohnish, Lewis, Andrea M., Nugent, Kimberly Margaret, Roeder, Elizabeth, Littlejohn, Rebecca O., Holder, Sue, Zhu, Wenmiao, Alaimo, Joseph T., Graham, Brett, Harris, Jill M., Gibson, James B., Pastore, Matthew, McBride, Kim L., Komara, Makanko, Al-Gazali, Lihadh, Al Shamsi, Aisha, Fanning, Elizabeth A., Wierenga, Klaas J., Scott, Daryl A., Ben-Neriah, Ziva, Meiner, Vardiella, Cassuto, Hanoch, Elpeleg, Orly, Holder, Jr, J. Lloyd, Burrage, Lindsay C., Seaver, Laurie H., Van Maldergem, Lionel, Mahida, Sonal, Soul, Janet S., Marlatt, Margaret, Matyakhina, Ludmila, Vogt, Julie, Gold, June-Anne, Park, Soo-Mi, Varghese, Vinod, Lampe, Anne K., Kumar, Ajith, Lees, Melissa, Holder-Espinasse, Muriel, McConnell, Vivienne, Bernhard, Birgitta, Blair, Ed, Harrison, Victoria, The DDD study, Muzny, Donna M., Gibbs, Richard A., Elsea, Sarah H., Posey, Jennifer E., Bi, Weimin, Lalani, Seema, Xia, Fan, Yang, Yaping, Eng, Christine M., Lupski, James R., and Liu, Pengfei

Published

2019

13. Macrocephaly and developmental delay caused by missense variants in RAB5C.

Author

Koop, Klaas, Yuan, Weimin, Tessadori, Federico, Rodriguez-Polanco, Wilmer R, Grubbs, Jeremy, Zhang, Bo, Osmond, Matt, Graham, Gail, Sawyer, Sarah, Conboy, Erin, Vetrini, Francesco, Treat, Kayla, Płoski, Rafal, Pienkowski, Victor Murcia, Kłosowska, Anna, Fieg, Elizabeth, Krier, Joel, Mallebranche, Coralie, Alban, Ziegler, and Aldinger, Kimberly A

Published

2023

14. Haploinsufficiency of the E3 ubiquitin-protein ligase gene TRIP12 causes intellectual disability with or without autism spectrum disorders, speech delay, and dysmorphic features

Author

Zhang, Jing, Gambin, Tomasz, Yuan, Bo, Szafranski, Przemyslaw, Rosenfeld, Jill A., Balwi, Mohammed Al, Alswaid, Abdulrahman, Al-Gazali, Lihadh, Shamsi, Aisha M. Al, Komara, Makanko, Ali, Bassam R., Roeder, Elizabeth, McAuley, Laura, Roy, Daniel S., Manchester, David K., Magoulas, Pilar, King, Lauren E., Hannig, Vickie, Bonneau, Dominique, Denommé-Pichon, Anne-Sophie, Charif, Majida, Besnard, Thomas, Bézieau, Stéphane, Cogné, Benjamin, Andrieux, Joris, Zhu, Wenmiao, He, Weimin, Vetrini, Francesco, Ward, Patricia A., Cheung, Sau Wai, Bi, Weimin, Eng, Christine M., Lupski, James R., Yang, Yaping, Patel, Ankita, Lalani, Seema R., Xia, Fan, and Stankiewicz, Paweł

Published

2017

15. P433: A novel deep intronic variant in DYNC2H1 characterized through exome reanalysis in a neonate with short-rib thoracic dysplasia type III

Author

Buchh, Muqsit, Gillespie, Patrick, Treat, Kayla, Abreu, Marco, Schwantes-An, Tae-Hwi, Helm, Benjamin, Fang, Fang, Xuei, Xaoling, Mantcheva, Lili, Suhrie, Kristen, Graham, Brett, Conboy, Erin, and Vetrini, Francesco

Published

2023

16. P237: A de novo gain-of-function ANO5 variant in a patient with anoctaminopathy5-related muscular dystrophy challenges the skeletal/muscular phenotype dichotomy into question

Author

Ly, Reynold, Treat, Kayla, Graham, Brett, Conboy, Erin, Boccaccio, Anna, and Vetrini, Francesco

Published

2023

17. Clinical exome sequencing for fetuses with ultrasound abnormalities and a suspected Mendelian disorder

Author

Normand, Elizabeth A., Braxton, Alicia, Nassef, Salma, Ward, Patricia A., Vetrini, Francesco, He, Weimin, Patel, Vipulkumar, Qu, Chunjing, Westerfield, Lauren E., Stover, Samantha, Dharmadhikari, Avinash V., Muzny, Donna M., Gibbs, Richard A., Dai, Hongzheng, Meng, Linyan, Wang, Xia, Xiao, Rui, Liu, Pengfei, Bi, Weimin, Xia, Fan, Walkiewicz, Magdalena, Van den Veyver, Ignatia B., Eng, Christine M., and Yang, Yaping

Published

2018

18. Erratum to: Haploinsufficiency of the E3 ubiquitin-protein ligase gene TRIP12 causes intellectual disability with or without autism spectrum disorders, speech delay, and dysmorphic features

Author

Zhang, Jing, Gambin, Tomasz, Yuan, Bo, Szafranski, Przemyslaw, Rosenfeld, Jill A., Balwi, Mohammed Al, Alswaid, Abdulrahman, Al-Gazali, Lihadh, Shamsi, Aisha M. Al, Komara, Makanko, Ali, Bassam R., Roeder, Elizabeth, McAuley, Laura, Roy, Daniel S., Manchester, David K., Magoulas, Pilar, King, Lauren E., Hannig, Vickie, Bonneau, Dominique, Denommé-Pichon, Anne-Sophie, Charif, Majida, Besnard, Thomas, Bézieau, Stéphane, Cogné, Benjamin, Andrieux, Joris, Zhu, Wenmiao, He, Weimin, Vetrini, Francesco, Ward, Patricia A., Cheung, Sau Wai, Bi, Weimin, Eng, Christine M., Lupski, James R., Yang, Yaping, Patel, Ankita, Lalani, Seema R., Xia, Fan, and Stankiewicz, Paweł

Published

2017

19. TFEB Links Autophagy to Lysosomal Biogenesis

Author

Settembre, Carmine, Di Malta, Chiara, Polito, Vinicia Assunta, Arencibia, Moises Garcia, Vetrini, Francesco, Erdin, Serkan, Erdin, Serpil Uckac, Huynh, Tuong, Medina, Diego, Colella, Pasqualina, Sardiello, Marco, Rubinsztein, David C., and Ballabio, Andrea

Published

2011

20. Characterization of a novel deep-intronic variant in DYNC2H1 identified by whole-exome sequencing in a patient with a lethal form of a short-rib thoracic dysplasia type III.

Author

Buchh, Muqsit, Gillespie, Patrick J., Treat, Kayla, Abreu, Marco A., Schwantes-An, Tae-Hwi Linus, Helm, Benjamin M., Fang Fang, Xiaoling Xuei, Mantcheva, Lili, Suhrie, Kristen R., Graham, Brett H., Conboy, Erin, and Vetrini, Francesco

Subjects

EXOMES, DYSPLASIA, NEONATAL intensive care, PRENATAL diagnosis, HYDRONEPHROSIS, PATENT foramen ovale

Abstract

Biallelic pathogenic variants in DYNC2H1 are the cause of short-rib thoracic dysplasia type III with or without polydactyly (OMIM #613091), a skeletal ciliopathy characterized by thoracic hypoplasia due to short ribs. In this report, we review the case of a patient who was admitted to the Neonatal Intensive Care Unit (NICU) of Indiana University Health (IUH) for respiratory support after experiencing respiratory distress secondary to a small, narrow chest causing restrictive lung disease. Additional phenotypic features include postaxial polydactyly, short proximal long bones, and ambiguous genitalia were noted. Exome sequencing (ES) revealed a maternally inherited likely pathogenic variant c.10322C > T p.(Leu3448Pro) in the DYNC2H1 gene. However, therewas no variant found on the paternal allele. Microarray analysis to detect deletion or duplication in DYNC2H1 was normal. Therefore, there was insufficient evidence to establish a molecular diagnosis. To further explore the data and perform additional investigations, the patient was subsequently enrolled in the Undiagnosed Rare Disease Clinic (URDC) at Indiana University School of Medicine (IUSM). The investigators at the URDC performed a reanalysis of the ES raw data, which revealed a paternally inherited DYNC2H1 deep-intronic variant c.10606-14A >Gpredicted to create a strong cryptic acceptor splice site. Additionally, the RNA sequencing of fibroblasts demonstrated partial intron retention predicted to cause a premature stop codon and nonsense- mediated mRNA decay (NMD). Droplet digital RT-PCR (RT-ddPCR) showed a drastic reduction by 74% of DYNCH2H1 mRNA levels. As a result, the intronic variant was subsequently reclassified as likely pathogenic resulting in a definitive clinical and genetic diagnosis for this patient. Reanalysis of ES and fibroblast mRNA experiments confirmed the pathogenicity of the splicing variants to supplement critical information not revealed in original ES or CMA reports. The NICU and URDC collaboration ended the diagnostic odyssey for this family; furthermore, its importance is emphasized by the possibility of prenatally diagnosing the mother's current pregnancy. [ABSTRACT FROM AUTHOR]

Published

2022

21. Gene transfer of master autophagy regulator TFEB results in clearance of toxic protein and correction of hepatic disease in alpha‐1‐anti‐trypsin deficiency

Author

Pastore, Nunzia, Blomenkamp, Keith, Annunziata, Fabio, Piccolo, Pasquale, Mithbaokar, Pratibha, Maria Sepe, Rosa, Vetrini, Francesco, Palmer, Donna, Ng, Philip, Polishchuk, Elena, Iacobacci, Simona, Polishchuk, Roman, Teckman, Jeffrey, Ballabio, Andrea, and Brunetti‐Pierri, Nicola

Published

2013

22. A lysosome‐to‐nucleus signalling mechanism senses and regulates the lysosome via mTOR and TFEB

Author

Settembre, Carmine, Zoncu, Roberto, Medina, Diego L, Vetrini, Francesco, Erdin, Serkan, Erdin, SerpilUckac, Huynh, Tuong, Ferron, Mathieu, Karsenty, Gerard, Vellard, Michel C, Facchinetti, Valeria, Sabatini, David M, and Ballabio, Andrea

Published

2012

23. Prospective Molecular Characterization of Multiple Myeloma Patient Samples Identifies High-Risk Patients and Informs Treatment Sequences through Resistance Mechanisms to Immunotherapies

Author

Pham, Phillip, Sudha, Parvathi, Wang, Lin, Niu, Wen, Morgan, Cameron, Ligocki, Cameron, Al-Azzawi, Ramzi, Ly, Reynold, Vetrini, Francesco, Czader, Magdalena, Tayeh, Marwan, Abu Zaid, Mohammad, Lee, Kelvin P., Suvannasankha, Attaya, Abonour, Rafat, and Walker, Brian A.

Published

2023

24. Further evidence of involvement of ITSN1 in autosomal dominant neurodevelopmental disorder.

Author

Liaqat, Khurram, Treat, Kayla, Wilson, Theodore E., Conboy, Erin, and Vetrini, Francesco

Subjects

NEURAL development, GUANINE nucleotide exchange factors, NUCLEOTIDE sequencing, AUTISM spectrum disorders

Abstract

This article discusses a case study of a 5-year-old male with autism spectrum disorder (ASD) and other neurodevelopmental disorders. The study identified a de novo pathogenic variant in the ITSN1 gene, which is associated with autosomal dominant neurodevelopmental disorders. The article highlights the importance of next-generation sequencing in understanding Mendelian neurodevelopmental conditions. The findings expand the genetic and phenotypic spectrum of autosomal dominant neurodevelopmental disorders and contribute to the limited clinical data available for ITSN1-related disorders. The study was funded by the Indiana University Grand Challenge Precision Health Initiative, and the authors declare no conflicts of interest. [Extracted from the article]

Published

2024

25. Exome sequencing identified a novel HIST1H1E heterozygous protein‐truncating variant in a 6‐month‐old male patient with Rahman syndrome: A case report.

Author

Indugula, Subba Rao, Ayala, Sofia Saenz, Vetrini, Francesco, Belonis, Alyce, and Zhang, Wenying

Subjects

GENETIC variation, SYNDROMES, INTELLECTUAL disabilities

Abstract

Rahman syndrome is a rare congenital anomaly syndrome recently described, which results from pathogenic variants in the HIST1H1E gene. The condition is characterized by variable somatic overgrowth, macrocephaly, distinctive facial features, intellectual disability, and behavioral problems. This report extends the genotype and clinical phenotype of HIST1H1E‐associated Rahman syndrome. [ABSTRACT FROM AUTHOR]

Published

2022

26. Aberrant Splicing in the Ocular Albinism Type 1 Gene (OA1/GPR143) Is Corrected In Vitro by Morpholino Antisense Oligonucleotides

Author

Vetrini, Francesco, Tammaro, Roberta, Bondanza, Sergio, Surace, Enrico M., Auricchio, Alberto, De Luca, Michele, Ballabio, Andrea, and Marigo, Valeria

Published

2006

27. Genotype‐phenotype study and expansion of ARL6IP1‐related complicated hereditary spastic paraplegia.

Author

Cao, Ye, Manning, Melanie, Pope, Kathleen, He, Weimin, Vetrini, Francesco, Siskind, Carly, Rosenfeld, Jill A., Yang, Yaping, and Xiao, Rui

Subjects

FAMILIAL spastic paraplegia, AGENESIS of corpus callosum, MOTOR neuron diseases, RESPIRATORY infections, FETAL growth retardation

Abstract

Here we report a homozygous nonsense variant c.346C>T (p.Arg116*) in of the I ARL6IP1 i gene in two unrelated Latino patients with neonatal onset severe generalized hypotonia, respiratory failure. Moreover, we compared these two and other six patients for exploring the genotype-phenotype correlations of I ARL6IP1 i -related HSP. The genotype-phenotype analysis of eight reported cases confirmed that biallelic changes in the I ARL6IP1 i gene cause a complicated HSP with variable severity (Table 1). [Extracted from the article]

Published

2021

28. EVEN‐PLUS syndrome: A case report with novel variants in HSPA9 and evidence of HSPA9 gene dysfunction.

Author

Younger, Georgianne, Vetrini, Francesco, Weaver, David D., Lynnes, Ty C., Treat, Kayla, Pratt, Victoria M., and Torres‐Martinez, Wilfredo

Abstract

EVEN‐PLUS syndrome is a rare condition characterized by its involvement of the Epiphyses, Vertebrae, Ears, and Nose, PLUS other associated findings. We report here the fifth case of EVEN‐PLUS syndrome with novel variants c.818 T > G (p.L273X) and c.955C > T (p.L319F) in the HSPA9 gene identified through whole‐exome sequencing. The patient is the first male known to be affected and presented with additional features not previously described with EVEN‐PLUS syndrome. These features include agenesis of the septum pellucidum, a short chest and sternum, 13 pairs of ribs, a single hemivertebra, laterally displaced nipples, hydronephrosis, unilateral cryptorchidism, unilateral single palmar crease, bilateral clubfoot, and hypotonia. qPCR analysis provides supporting evidence for a nonsense‐mediated decay mechanism for the HSPA9 truncating variant. In silico 3D modeling supports the pathogenicity of the c.955C > T (p.L319F) missense variant. The study presented here further describes the syndrome and broadens its mutational and phenotypic spectrum. Our study also lends support to HSPA9 variants as the underlying etiology of EVEN‐PLUS syndrome and ultimately provides a better understanding of the molecular basis of the condition. [ABSTRACT FROM AUTHOR]

Published

2020

29. An unusual cause for Coffin–Lowry syndrome: Three brothers with a novel microduplication in RPS6KA3.

Author

Castelluccio, Valerie J., Vetrini, Francesco, Lynnes, Ty, Jones, Julie, Holloway, Lynda, Belonis, Alyce, Breman, Amy M., Graham, Brett H., Sapp, Katherine, Wilson, Theodore, Schwartz, Charles E., Pratt, Victoria M., and Weaver, David D.

Abstract

Coffin–Lowry syndrome (CLS) is a rare X‐linked disorder characterized by moderate to severe intellectual disability, hypotonia, craniofacial features, tapering digits, short stature, and skeletal deformities. Using whole exome sequencing and high‐resolution targeted comparative genomic hybridization array analysis, we identified a novel microduplication encompassing exons five through nine of RPS6KA3 in three full brothers. Each brother presented with intellectual disability and clinical and radiographic features consistent with CLS. qRT‐PCR analyses performed on mRNA from the peripheral blood of the three siblings revealed a marked reduction of RPS6KA3 levels suggesting a loss‐of‐function mechanism. PCR analysis of the patients' cDNA detected a band greater than expected for an exon 4–10 amplicon, suggesting this was likely a direct duplication that lies between exons 4 through 10, which was later confirmed by Sanger sequencing. This microduplication is only the third intragenic duplication of RPS6KA3, and the second and smallest reported to date thought to cause CLS. Our study further supports the clinical utility of methods such as next‐generation sequencing and high‐resolution genomic arrays to detect small intragenic duplications. These methods, coupled with expression studies and cDNA structural analysis have the capacity to confirm the diagnosis of CLS in these rare cases. [ABSTRACT FROM AUTHOR]

Published

2019

30. Biallelic loss of function variants in PPP1R21 cause a neurodevelopmental syndrome with impaired endocytic function.

Author

Rehman, Atteeq U., Najafi, Maryam, Kambouris, Marios, Al‐Gazali, Lihadh, Makrythanasis, Periklis, Rad, Abolfazl, Maroofian, Reza, Rajab, Anna, Stark, Zornitza, Hunter, Jill V., Bakey, Zeineb, Tokita, Mari J., He, Weimin, Vetrini, Francesco, Petersen, Andrea, Santoni, Federico A., Hamamy, Hanan, Wu, Kaman, Al‐Jasmi, Fatma, and Helmstädter, Martin

Abstract

Next‐generation sequencing (NGS) has been instrumental in solving the genetic basis of rare inherited diseases, especially neurodevelopmental syndromes. However, functional workup is essential for precise phenotype definition and to understand the underlying disease mechanisms. Using whole exome (WES) and whole genome sequencing (WGS) in four independent families with hypotonia, neurodevelopmental delay, facial dysmorphism, loss of white matter, and thinning of the corpus callosum, we identified four previously unreported homozygous truncating PPP1R21 alleles: c.347delT p.(Ile116Lysfs*25), c.2170_2171insGGTA p.(Ile724Argfs*8), c.1607dupT p.(Leu536Phefs*7), c.2063delA p.(Lys688Serfs*26) and found that PPP1R21 was absent in fibroblasts of an affected individual, supporting the allele's loss of function effect. PPP1R21 function had not been studied except that a large scale affinity proteomics approach suggested an interaction with PIBF1 defective in Joubert syndrome. Our co‐immunoprecipitation studies did not confirm this but in contrast defined the localization of PPP1R21 to the early endosome. Consistent with the subcellular expression pattern and the clinical phenotype exhibiting features of storage diseases, we found patient fibroblasts exhibited a delay in clearance of transferrin‐488 while uptake was normal. In summary, we delineate a novel neurodevelopmental syndrome caused by biallelic PPP1R21 loss of function variants, and suggest a role of PPP1R21 within the endosomal sorting process or endosome maturation pathway. We describe PPP1R21 loss of function in 4 independent families with syndromal neurodevelopmental delay by exome and genome sequencing. Immunoflorescence analysis reveals wildtype PPP1R21 localises to the early endosome and PPP1R21 loss of function in patient fibroblasts results in disturbances of the endosomal sorting process or endosome maturation pathway. [ABSTRACT FROM AUTHOR]

Published

2019

31. Two de novo novel mutations in one <italic>SHANK3</italic> allele in a patient with autism and moderate intellectual disability.

Author

Zhu, Wenmiao, Li, Jianli, Chen, Stella, Zhang, Jinglan, Vetrini, Francesco, Braxton, Alicia, Eng, Christine M., Yang, Yaping, Xia, Fan, Keller, Kory L., Okinaka‐Hu, Leila, Lee, Chung, Holder, Jr, J. Lloyd, and Bi, Weimin

Abstract

SHANK3 encodes for a scaffolding protein that links neurotransmitter receptors to the cytoskeleton and is enriched in postsynaptic densities of excitatory synapses. Deletions or mutations in one copy of the SHANK3 gene cause Phelan‐McDermid syndrome, also called 22q13.3 deletion syndrome, a neurodevelopmental disorder with common features including global developmental delay, absent to severely impaired language, autistic behavior, and minor dysmorphic features. By whole exome sequencing, we identified two de novo novel variants including one frameshift pathogenic variant and one missense variant of unknown significance in a 14‐year‐old boy with delayed motor milestones, delayed language acquisition, autism, intellectual disability, ataxia, progressively worsening spasticity of the lower extremities, dysmorphic features, short stature, microcephaly, failure to thrive, chronic constipation, intrauterine growth restriction, and bilateral inguinal hernias. Both changes are within the CpG island in exon 21, separated by a 375 bp sequence. Next generation sequencing of PCR products revealed that the two variants are most frequently associated with each other. Sanger sequencing of the cloned PCR products further confirmed that both changes were on a single allele. The clinical presentation in this individual is consistent with other patients with a truncating mutation in exon 21, suggesting that the missense change contributes none or minimally to the phenotypes. This is the first report of two de novo mutations in one SHANK3 allele. [ABSTRACT FROM AUTHOR]

Published

2018

32. Use of Exome Sequencing for Infants in Intensive Care Units Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management.

Author

Linyan Meng, Pammi, Mohan, Saronwala, Anirudh, Magoulas, Pilar, Ghazi, Andrew Ray, Vetrini, Francesco, Jing Zhang, Weimin He, Dharmadhikari, Avinash V., Chunjing Qu, Ward, Patricia, Braxton, Alicia, Narayanan, Swetha, Xiaoyan Ge, Tokita, Mari J., Santiago-Sim, Teresa, Hongzheng Dai, Theodore Chiangc, Smith, Hadley, and Azamian, Mahshid S.

Published

2017

33. Bi-allelic Mutations in PKD1L1 Are Associated with Laterality Defects in Humans.

Author

Vetrini, Francesco, D’Alessandro, Lisa C.A., Akdemir, Zeynep C., Braxton, Alicia, Azamian, Mahshid S., Eldomery, Mohammad K., Miller, Kathryn, Kois, Chelsea, Sack, Virginia, Shur, Natasha, Rijhsinghani, Asha, Chandarana, Jignesh, Ding, Yan, Holtzman, Judy, Jhangiani, Shalini N., Muzny, Donna M., Gibbs, Richard A., Eng, Christine M., Hanchard, Neil A., and Harel, Tamar

Subjects

*GENETIC mutation, *SITUS inversus, *HETEROTAXY syndromes, *GENETIC disorders, *NUCLEOTIDE sequencing

Abstract

Disruption of the establishment of left-right (L-R) asymmetry leads to situs anomalies ranging from situs inversus totalis (SIT) to situs ambiguus (heterotaxy). The genetic causes of laterality defects in humans are highly heterogeneous. Via whole-exome sequencing (WES), we identified homozygous mutations in PKD1L1 from three affected individuals in two unrelated families. PKD1L1 encodes a polycystin-1-like protein and its loss of function is known to cause laterality defects in mouse and medaka fish models. Family 1 had one fetus and one deceased child with heterotaxy and complex congenital heart malformations. WES identified a homozygous splicing mutation, c.6473+2_6473+3delTG, which disrupts the invariant splice donor site in intron 42, in both affected individuals. In the second family, a homozygous c.5072G>C (p.Cys1691Ser) missense mutation was detected in an individual with SIT and congenital heart disease. The p.Cys1691Ser substitution affects a highly conserved cysteine residue and is predicted by molecular modeling to disrupt a disulfide bridge essential for the proper folding of the G protein-coupled receptor proteolytic site (GPS) motif. Damaging effects associated with substitutions of this conserved cysteine residue in the GPS motif have also been reported in other genes, namely GPR56 , BAI3 , and PKD1 in human and lat-1 in C. elegans , further supporting the likely pathogenicity of p.Cys1691Ser in PKD1L1. The identification of bi-allelic PKD1L1 mutations recapitulates previous findings regarding phenotypic consequences of loss of function of the orthologous genes in mice and medaka fish and further expands our understanding of genetic contributions to laterality defects in humans. [ABSTRACT FROM AUTHOR]

Published

2016

34. TFEB controls cellular lipid metabolism through a starvation-induced autoregulatory loop.

Author

Settembre, Carmine, De Cegli, Rossella, Mansueto, Gelsomina, Saha, Pradip K., Vetrini, Francesco, Visvikis, Orane, Huynh, Tuong, Carissimo, Annamaria, Palmer, Donna, Jürgen Klisch, Tiemo, Wollenberg, Amanda C., Di Bernardo, Diego, Chan, Lawrence, Irazoqui, Javier E., and Ballabio, Andrea

Subjects

LIPID metabolism, TRANSCRIPTION factors, OBESITY, METABOLIC syndrome, ANIMAL models in research

Abstract

The lysosomal-autophagic pathway is activated by starvation and plays an important role in both cellular clearance and lipid catabolism. However, the transcriptional regulation of this pathway in response to metabolic cues is uncharacterized. Here we show that the transcription factor EB (TFEB), a master regulator of lysosomal biogenesis and autophagy, is induced by starvation through an autoregulatory feedback loop and exerts a global transcriptional control on lipid catabolism via Ppargc1α and Ppar1α. Thus, during starvation a transcriptional mechanism links the autophagic pathway to cellular energy metabolism. The conservation of this mechanism in Caenorhabditis elegans suggests a fundamental role for TFEB in the evolution of the adaptive response to food deprivation. Viral delivery of TFEB to the liver prevented weight gain and metabolic syndrome in both diet-induced and genetic mouse models of obesity, suggesting a new therapeutic strategy for disorders of lipid metabolism. [ABSTRACT FROM AUTHOR]

Published

2013

35. SR-A and SREC-I Are Kupffer and Endothelial Cell Receptors for Helper-dependent Adenoviral Vectors.

Author

Piccolo, Pasquale, Vetrini, Francesco, Mithbaokar, Pratibha, Grove, Nathan C, Bertin, Terry, Palmer, Donna, Ng, Philip, and Brunetti-Pierri, Nicola

Subjects

*ADENOVIRUSES, *LIVER cells, *KUPFFER cells, *ENDOTHELIAL cells, *ANTIGENS

Abstract

Helper-dependent adenoviral (HDAd) vectors can mediate long-term, high-level transgene expression from transduced hepatocytes with no chronic toxicity. However, a toxic acute response with potentially lethal consequences has hindered their clinical applications. Liver sinusoidal endothelial cells (LSECs) and Kupffer cells are major barriers to efficient hepatocyte transduction. Understanding the mechanisms of adenoviral vector uptake by non-parenchymal cells may allow the development of strategies aimed at overcoming these important barriers and to achieve preferential hepatocyte gene transfer with reduced toxicity. Scavenger receptors on Kupffer cells bind adenoviral particles and remove them from the circulation, thus preventing hepatocyte transduction. In the present study, we show that HDAd particles interact in vitro and in vivo with scavenger receptor-A (SR-A) and with scavenger receptor expressed on endothelial cells-I (SREC-I) and we exploited this knowledge to increase the efficiency of hepatocyte transduction by HDAd vectors in vivo through blocking of SR-A and SREC-I with specific fragments antigen-binding (Fabs). [ABSTRACT FROM AUTHOR]

Published

2013

36. Sustained Reduction of Hyperbilirubinemia in Gunn Rats After Adeno-Associated Virus-Mediated Gene Transfer of Bilirubin UDP-Glucuronosyltransferase Isozyme 1A1 to Skeletal Muscle.

Author

Pastore, Nunzia, Nusco, Edoardo, Vaníkova, Jana, Sepe, Rosa Maria, Vetrini, Francesco, McDonagh, Antony, Auricchio, Alberto, Vitek, Libor, and Brunetti-Pierri, Nicola

Published

2012

37. Gene Therapy with Helper-Dependent Adenoviral Vectors: Current Advances and Future Perspectives.

Author

Vetrini, Francesco and Philip Ng

Subjects

*GENE therapy, *GENETIC transformation, *CELL proliferation, *IMMUNE response, *ADENOVIRUSES

Abstract

Recombinant Adenoviral vectors represent one of the best gene transfer platforms due to their ability to efficiently transduce a wide range of quiescent and proliferating cell types from various tissues and species. The activation of an adaptive immune response against the transduced cells is one of the major drawbacks of first generation Adenovirus vectors and has been overcome by the latest generation of recombinant Adenovirus, the Helper-Dependent Adenoviral (HDAd) vectors. HDAds have innovative features including the complete absence of viral coding sequences and the ability to mediate high level transgene expression with negligible chronic toxicity. This review summarizes the many aspects of HDAd biology and structure with a major focus on in vivo gene therapy application and with an emphasis on the unsolved issues that these vectors still presents toward clinical application. [ABSTRACT FROM AUTHOR]

Published

2010

38. Vasoactive Intestinal Peptide Increases Hepatic Transduction and Reduces Innate Immune Response Following Administration of Helper-dependent Ad.

Author

Vetrini, Francesco, Brunetti-Pierri, Nicola, Palmer, Donna J., Bertin, Terry, Grove, Nathan C., Finegold, Milton J., and Ng, Philip

Subjects

*VASOACTIVE intestinal peptide, *GENETIC transduction, *IMMUNE response, *GENE therapy, *TOXICITY testing, *CYTOKINES

Abstract

Helper-dependent adenoviral vectors (HDAd) are effective tools for liver-directed gene therapy because they can mediate long-term transgene expression in the absence of chronic toxicity. However, high vector doses required for efficient hepatocyte transduction by intravascular delivery result in systemic vector dissemination and dose-dependent activation of the innate immunity. Therefore, strategies to achieve high-efficiency hepatocyte transduction using low vector doses and/or to reduce the acute elevations of proinflammatory cytokines and chemokines may have significant clinical potential. Vasoactive intestinal peptide (VIP) is an endogenous neuropeptide involved in the regulation of hepatic blood flow and plays an important role as modulator of immune functions. Here, we show that VIP pretreatment in mice is able to increase hepatocyte transduction by HDAd, decrease vector uptake by the spleen, reduce elevation of proinflammatory serum cytokines interleukin (IL)-6 and IL-12, and reduce serum levels of aspartate aminotransferase (AST) and alanine aminotransferase (ALT) following intravenous HDAd injection. VIP pretreatment also resulted in a reduction in the expression of the chemokines macrophage-inflammatory protein 2 (MIP-2), monocyte chemotactic protein 1 (MCP-1), and regulated on activation normal T-cell expressed and secreted (RANTES) in the livers of mice injected with HDAd. These results suggest that VIP can improve the therapeutic index of HDAd by increasing hepatocyte transduction efficiency while reducing cytokine and chemokine expression following intravascular delivery of HDAd. [ABSTRACT FROM AUTHOR]

Published

2010

39. The Microphthalmia Transcription Factor (Mitf) Controls Expression of the Ocular Albinism Type 1 Gene: Link between Melanin Synthesis and Melanosome Biogenesis.

Author

Vetrini, Francesco, Auricchio, Alberto, Du, Jinyan, Angeletti, Barbara, Fisher, David E., Ballabio, Andrea, and Marigo, Valeria

Subjects

*TRANSCRIPTION factors, *ALBINISM, *GENE expression, *MELANINS, *RHODOPSIN, *EPITHELIUM

Abstract

Melanogenesis is the process that regulates skin and eye pigmentation. Albinism, a genetic disease causing pigmentation defects and visual disorders, is caused by mutations in genes controlling either melanin synthesis or melanosome biogenesis. Here we show that a common transcriptional control regulates both of these processes. We performed an analysis of the regulatory region of Oa1, the murine homolog of the gene that is mutated in the X-linked form of ocular albinism, as Oa1's function affects melanosome biogenesis. We demonstrated that Oa1 is a target of Mitf and that this regulatory mechanism is conserved in the human gene. Tissue-specific control of Oa1 transcription lies within a region of 617 bp that contains the E-box bound by Mitf. Finally, we took advantage of a virus-based system to assess tissue specificity in vivo. To this end, a small fragment of the Oa1 promoter was cloned in front of a reporter gene in an adeno-associated virus. After we injected this virus into the subretinal space, we observed reporter gene expression specifically in the retinal pigment epithelium, confirming the cell-specific expression of the Oa1 promoter in the eye. The results obtained with this viral system are a preamble to the development of new gene delivery approaches for the treatment of retinal pigment epithelium defects. [ABSTRACT FROM AUTHOR]

Published

2004

40. Familial Autonomic Ganglionopathy Caused by Rare Genetic Variants.

Author

Shibao, Cyndya A., Joos, Karen, Phillips III, John A., Shibao, Cyndya, Phillips, John A 3rd, Cogan, Joy, Newman, John H, Hamid, Rizwan, Meiler, Jens, Capra, John, Sheehan, Jonathan, Vetrini, Francesco, Yang, Yaping, Black, Bonnie, Diedrich, André, Roberston, David, and Biaggioni, Italo

Published

2021

41. Cover Image, Volume 40, Issue 3.

Author

Rehman, Atteeq U., Najafi, Maryam, Kambouris, Marios, Al‐Gazali, Lihadh, Makrythanasis, Periklis, Rad, Abolfazl, Maroofian, Reza, Rajab, Anna, Stark, Zornitza, Hunter, Jill V., Bakey, Zeineb, Tokita, Mari J., He, Weimin, Vetrini, Francesco, Petersen, Andrea, Santoni, Federico A., Hamamy, Hanan, Wu, Kaman, Al‐Jasmi, Fatma, and Helmstädter, Martin

Abstract

On the Front Cover: This cover image is based on the Rapid Communication Biallelic loss of function variants in PPP1R21 cause a neurodevelopmental syndrome with impaired endocytic function by Atteeq U. Rehman et al., Pages 267–280. DOI: 10.1002/humu.23694. [ABSTRACT FROM AUTHOR]

Published

2019

42. Generation of a Kupffer Cell-evading Adenovirus for Systemic and Liver-directed Gene Transfer.

Author

Khare, Reeti, May, Shannon M., Vetrini, Francesco, Weaver, Eric A., Palmer, Donna, Rosewell, Amanda, Grove, Nathan, Ng, Philip, and Barry, Michael A.

Subjects

*KUPFFER cells, *ADENOVIRUSES, *HYPERVARIABLE regions, *GENETIC transduction, *LABORATORY mice, *HAMSTERS as laboratory animals, *LUCIFERASES, *BLOOD coagulation factor IX

Abstract

As much as 90% of an intravenously (i.v.) injected dose of adenovirus serotype 5 (Ad5) is absorbed and destroyed by liver Kupffer cells. Viruses that escape these cells can then transduce hepatocytes after binding factor X (FX). Given that interactions with FX and Kupffer cells are thought to occur on the Ad5 hexon protein, we replaced its exposed hypervariable regions (HVR) with those from Ad6. When tested in vivo in BALB/c mice and in hamsters, the Ad5/6 chimera mediated >10 times higher transduction in the liver. This effect was not due to changes in FX binding. Rather, Ad5/6 appeared to escape Kupffer cell uptake as evidenced by producing no Kupffer cell death in vivo, not requiring predosing in vivo, and being phagocytosed less efficiently by macrophages in vitro compared to Ad5. When tested as a helper-dependent adenovirus (Ad) vector, Ad5/6 mediated higher luciferase and factor IX transgene expression than either helper-dependent adenoviral 5 (HD-Ad5) or HD-Ad6 vectors. These data suggest that the Ad5/6 hexon-chimera evades Kupffer cells and may have utility for systemic and liver-directed therapies. [ABSTRACT FROM AUTHOR]

Published

2011

43. eP268 - Exome sequencing identified a novel HIST1H1E heterozygous protein-truncating variant in a 6-month-old male patient with Rahman syndrome: a case report.

Author

Ayala, Sofia Saenz, Indugula, Subba, Vetrini, Francesco, Belonis, Alyce, and Zhang, Wenying

Subjects

*MALES, *SYNDROMES, *PATIENTS

Published

2021

44. Complex Compound Inheritance of Lethal Lung Developmental Disorders Due to Disruption of the TBX-FGF Pathway.

Author

Karolak, Justyna A., Vincent, Marie, Deutsch, Gail, Gambin, Tomasz, Cogné, Benjamin, Pichon, Olivier, Vetrini, Francesco, Mefford, Heather C., Dines, Jennifer N., Golden-Grant, Katie, Dipple, Katrina, Freed, Amanda S., Leppig, Kathleen A., Dishop, Megan, Mowat, David, Bennetts, Bruce, Gifford, Andrew J., Weber, Martin A., Lee, Anna F., and Boerkoel, Cornelius F.

Subjects

*LUNG development, *MORPHOGENESIS, *LUNG diseases, *DELETION mutation, *HISTOPATHOLOGY

Abstract

Primary defects in lung branching morphogenesis, resulting in neonatal lethal pulmonary hypoplasias, are incompletely understood. To elucidate the pathogenetics of human lung development, we studied a unique collection of samples obtained from deceased individuals with clinically and histopathologically diagnosed interstitial neonatal lung disorders: acinar dysplasia (n = 14), congenital alveolar dysplasia (n = 2), and other lethal lung hypoplasias (n = 10). We identified rare heterozygous copy-number variant deletions or single-nucleotide variants (SNVs) involving TBX4 (n = 8 and n = 2, respectively) or FGF10 (n = 2 and n = 2, respectively) in 16/26 (61%) individuals. In addition to TBX4 , the overlapping ∼2 Mb recurrent and nonrecurrent deletions at 17q23.1q23.2 identified in seven individuals with lung hypoplasia also remove a lung-specific enhancer region. Individuals with coding variants involving either TBX4 or FGF10 also harbored at least one non-coding SNV in the predicted lung-specific enhancer region, which was absent in 13 control individuals with the overlapping deletions but without any structural lung anomalies. The occurrence of rare coding variants involving TBX4 or FGF10 with the putative hypomorphic non-coding SNVs implies a complex compound inheritance of these pulmonary hypoplasias. Moreover, they support the importance of TBX4-FGF10-FGFR2 epithelial-mesenchymal signaling in human lung organogenesis and help to explain the histopathological continuum observed in these rare lethal developmental disorders of the lung. [ABSTRACT FROM AUTHOR]

Published

2019

45. Haploinsufficiency of the Chromatin Remodeler BPTF Causes Syndromic Developmental and Speech Delay, Postnatal Microcephaly, and Dysmorphic Features.

Author

Stankiewicz, Paweł, Khan, Tahir N., Szafranski, Przemyslaw, Slattery, Leah, Streff, Haley, Vetrini, Francesco, Bernstein, Jonathan A., Brown, Chester W., Rosenfeld, Jill A., Rednam, Surya, Scollon, Sarah, Bergstrom, Katie L., Parsons, Donald W., Plon, Sharon E., Vieira, Marta W., Quaio, Caio R.D.C., Baratela, Wagner A.R., Acosta Guio, Johanna C., Armstrong, Ruth, and Mehta, Sarju G.

Subjects

*CHROMATIN-remodeling complexes, *DEVELOPMENTAL delay, *MICROCEPHALY, *GENE expression, *MUSCLE dysmorphia, *BROMODOMAIN-containing proteins

Abstract

Bromodomain PHD finger transcription factor (BPTF) is the largest subunit of nucleosome remodeling factor (NURF), a member of the ISWI chromatin-remodeling complex. However, the clinical consequences of disruption of this complex remain largely uncharacterized. BPTF is required for anterior-posterior axis formation of the mouse embryo and was shown to promote posterior neuroectodermal fate by enhancing Smad2-activated wnt8 expression in zebrafish. Here, we report eight loss-of-function and two missense variants (eight de novo and two of unknown origin) in BPTF on 17q24.2. The BPTF variants were found in unrelated individuals aged between 2.1 and 13 years, who manifest variable degrees of developmental delay/intellectual disability (10/10), speech delay (10/10), postnatal microcephaly (7/9), and dysmorphic features (9/10). Using CRISPR-Cas9 genome editing of bptf in zebrafish to induce a loss of gene function, we observed a significant reduction in head size of F0 mutants compared to control larvae. Terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) and phospho-histone H3 (PH3) staining to assess apoptosis and cell proliferation, respectively, showed a significant increase in cell death in F0 mutants compared to controls. Additionally, we observed a substantial increase of the ceratohyal angle of the craniofacial skeleton in bptf F0 mutants, indicating abnormal craniofacial patterning. Taken together, our data demonstrate the pathogenic role of BPTF haploinsufficiency in syndromic neurodevelopmental anomalies and extend the clinical spectrum of human disorders caused by ablation of chromatin remodeling complexes. [ABSTRACT FROM AUTHOR]

Published

2017

46. Reanalysis of Clinical Exome Sequencing Data.

Author

Pengfei Liu, Lupski, James R., Yaping Yang, Liu, Pengfei, Meng, Linyan, Normand, Elizabeth A, Xia, Fan, Song, Xiaofei, Ghazi, Andrew, Rosenfeld, Jill, Magoulas, Pilar L, Braxton, Alicia, Ward, Patricia, Dai, Hongzheng, Yuan, Bo, Bi, Weimin, Xiao, Rui, Wang, Xia, Chiang, Theodore, and Vetrini, Francesco

Subjects

*INTENSIVE care patients, *GENOMICS, *MEDICAL societies

Published

2019

47. Recurrent Muscle Weakness with Rhabdomyolysis, Metabolic Crises, and Cardiac Arrhythmia Due to Bi-allelic TANGO2 Mutations.

Author

Lalani, Seema R., Liu, Pengfei, Rosenfeld, Jill A., Watkin, Levi B., Chiang, Theodore, Leduc, Magalie S., Zhu, Wenmiao, Ding, Yan, Pan, Shujuan, Vetrini, Francesco, Miyake, Christina Y., Shinawi, Marwan, Gambin, Tomasz, Eldomery, Mohammad K., Akdemir, Zeynep Hande Coban, Emrick, Lisa, Wilnai, Yael, Schelley, Susan, Koenig, Mary Kay, and Memon, Nada

Subjects

*RHABDOMYOLYSIS, *GENETIC mutation, *ARRHYTHMIA, *MUSCLE weakness, *ALLELES, *GENETICS

Abstract

The underlying genetic etiology of rhabdomyolysis remains elusive in a significant fraction of individuals presenting with recurrent metabolic crises and muscle weakness. Using exome sequencing, we identified bi-allelic mutations in TANGO2 encoding transport and Golgi organization 2 homolog ( Drosophila ) in 12 subjects with episodic rhabdomyolysis, hypoglycemia, hyperammonemia, and susceptibility to life-threatening cardiac tachyarrhythmias. A recurrent homozygous c.460G>A (p.Gly154Arg) mutation was found in four unrelated individuals of Hispanic / Latino origin, and a homozygous ∼34 kb deletion affecting exons 3–9 was observed in two families of European ancestry. One individual of mixed Hispanic/European descent was found to be compound heterozygous for c.460G>A (p.Gly154Arg) and the deletion of exons 3–9. Additionally, a homozygous exons 4–6 deletion was identified in a consanguineous Middle Eastern Arab family. No homozygotes have been reported for these changes in control databases. Fibroblasts derived from a subject with the recurrent c.460G>A (p.Gly154Arg) mutation showed evidence of increased endoplasmic reticulum stress and a reduction in Golgi volume density in comparison to control. Our results show that the c.460G>A (p.Gly154Arg) mutation and the exons 3–9 heterozygous deletion in TANGO2 are recurrent pathogenic alleles present in the Latino/Hispanic and European populations, respectively, causing considerable morbidity in the homozygotes in these populations. [ABSTRACT FROM AUTHOR]

Published

2016

48. Modifications of Adenovirus Hexon Allow for Either Hepatocyte Detargeting or Targeting With Potential Evasion From Kupffer Cells.

Author

Prill, Jan-Michael, Espenlaub, Sigrid, Samen, Ulrike, Engler, Tatjana, Schmidt, Erika, Vetrini, Francesco, Rosewell, Amanda, Grove, Nathan, Palmer, Donna, Ng, Philip, Kochanek, Stefan, and Kreppel, Florian

Subjects

*GENETIC transformation, *TROPISMS, *ADENOVIRUSES, *LIVER cells, *GENETIC transduction, *KUPFFER cells

Abstract

In vivo gene transfer with adenovirus vectors would significantly benefit from a tight control of the adenovirus-inherent liver tropism. For efficient hepatocyte transduction, adenovirus vectors need to evade from Kupffer cell scavenging while delivery to peripheral tissues or tumors could be improved if both scavenging by Kupffer cells and uptake by hepatocytes were blocked. Here, we provide evidence that a single point mutation in the hexon capsomere designed to enable defined chemical capsid modifications may permit both detargeting from and targeting to hepatocytes with evasion from Kupffer cell scavenging. Vector particles modified with small polyethylene glycol (PEG) moieties specifically on hexon exhibited decreased transduction of hepatocytes by shielding from blood coagulation factor binding. Vector particles modified with transferrin or, surprisingly, 5,000 Da PEG or dextran increased hepatocyte transduction up to 18-fold independent of the presence of Kupffer cells. We further show that our strategy can be used to target high-capacity adenovirus vectors to hepatocytes emphasizing the potential for therapeutic liver-directed gene transfer. Our approach may lead to a detailed understanding of the interactions between adenovirus vectors and Kupffer cells, one of the most important barriers for adenovirus-mediated gene delivery. [ABSTRACT FROM AUTHOR]

Published

2011

49. eP143 - Deletion of SMC3 in an individual with heart defects and syndromic features: is haploinsufficiency an unrecognized disease mechanism?

Author

Otsubo, Aiko, Helm, Benjamin, Geddes, Gabrielle, Lah, Melissa, Vetrini, Francesco, and Breman, Amy

Subjects

*HEART abnormalities

Published

2021

50. HNRNPC haploinsufficiency affects alternative splicing of intellectual disability-associated genes and causes a neurodevelopmental disorder.

Author

Niggl E, Bouman A, Briere LC, Hoogenboezem RM, Wallaard I, Park J, Admard J, Wilke M, Harris-Mostert EDRO, Elgersma M, Bain J, Balasubramanian M, Banka S, Benke PJ, Bertrand M, Blesson AE, Clayton-Smith J, Ellingford JM, Gillentine MA, Goodloe DH, Haack TB, Jain M, Krantz I, Luu SM, McPheron M, Muss CL, Raible SE, Robin NH, Spiller M, Starling S, Sweetser DA, Thiffault I, Vetrini F, Witt D, Woods E, Zhou D, Elgersma Y, and van Esbroeck ACM

Subjects

Humans, Alternative Splicing genetics, Heterogeneous-Nuclear Ribonucleoprotein Group C genetics, Haploinsufficiency genetics, Heterogeneous-Nuclear Ribonucleoproteins genetics, Intellectual Disability genetics, Neurodevelopmental Disorders genetics

Abstract

Heterogeneous nuclear ribonucleoprotein C (HNRNPC) is an essential, ubiquitously abundant protein involved in mRNA processing. Genetic variants in other members of the HNRNP family have been associated with neurodevelopmental disorders. Here, we describe 13 individuals with global developmental delay, intellectual disability, behavioral abnormalities, and subtle facial dysmorphology with heterozygous HNRNPC germline variants. Five of them bear an identical in-frame deletion of nine amino acids in the extreme C terminus. To study the effect of this recurrent variant as well as HNRNPC haploinsufficiency, we used induced pluripotent stem cells (iPSCs) and fibroblasts obtained from affected individuals. While protein localization and oligomerization were unaffected by the recurrent C-terminal deletion variant, total HNRNPC levels were decreased. Previously, reduced HNRNPC levels have been associated with changes in alternative splicing. Therefore, we performed a meta-analysis on published RNA-seq datasets of three different cell lines to identify a ubiquitous HNRNPC-dependent signature of alternative spliced exons. The identified signature was not only confirmed in fibroblasts obtained from an affected individual but also showed a significant enrichment for genes associated with intellectual disability. Hence, we assessed the effect of decreased and increased levels of HNRNPC on neuronal arborization and neuronal migration and found that either condition affects neuronal function. Taken together, our data indicate that HNRNPC haploinsufficiency affects alternative splicing of multiple intellectual disability-associated genes and that the developing brain is sensitive to aberrant levels of HNRNPC. Hence, our data strongly support the inclusion of HNRNPC to the family of HNRNP-related neurodevelopmental disorders., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 American Society of Human Genetics. All rights reserved.)

Published

2023