Your search keyword '"Walsh, Christopher"' showing total 84 results

1. Chromosomal structural rearrangements implicate long non-coding RNAs in rare germline disorders

Author

Andersen, Rebecca E., Alkuraya, Ibrahim F., Ajeesh, Abna, Sakamoto, Tyler, Mena, Elijah L., Amr, Sami S., Romi, Hila, Kenna, Margaret A., Robson, Caroline D., Wilch, Ellen S., Nalbandian, Katarena, Piña-Aguilar, Raul, Walsh, Christopher A., and Morton, Cynthia C.

Published

2024

2. Optimizing liver health before and after gene therapy for hemophilia A

Author

Ragni, Margaret V., Mead, Henry, de Jong, Ype P., Kaczmarek, Radoslaw, Leavitt, Andrew D., Long, Brian, Nugent, Diane J., Sabatino, Denise E., Fong, Sylvia, von Drygalski, Annette, Walsh, Christopher E., and Luxon, Bruce A.

Published

2024

3. Rare variation in non-coding regions with evolutionary signatures contributes to autism spectrum disorder risk

Author

Shin, Taehwan, Song, Janet H.T., Kosicki, Michael, Kenny, Connor, Beck, Samantha G., Kelley, Lily, Antony, Irene, Qian, Xuyu, Bonacina, Julieta, Papandile, Frances, Gonzalez, Dilenny, Scotellaro, Julia, Bushinsky, Evan M., Andersen, Rebecca E., Maury, Eduardo, Pennacchio, Len A., Doan, Ryan N., and Walsh, Christopher A.

Published

2024

4. Cell-type-specific effects of autism-associated 15q duplication syndrome in the human brain

Author

Dias, Caroline, Mo, Alisa, Cai, Chunhui, Sun, Liang, Cabral, Kristen, Brownstein, Catherine A., Rockowitz, Shira, and Walsh, Christopher A.

Published

2024

5. Advancing Sustainable Development Goals through energy access: Lessons from the Global South

Author

Minas, Angela Mae, García-Freites, Samira, Walsh, Christopher, Mukoro, Velma, Aberilla, Jhud Mikhail, April, Amanda, Kuriakose, Jaise, Gaete-Morales, Carlos, Gallego-Schmid, Alejandro, and Mander, Sarah

Published

2024

6. Richard Thompson: Hartford Infinity Music

Author

Walsh, Christopher

Subjects

Music

Abstract

Richard Thompson Hartford Infinity Music Hall, Connecticut, US 4/4/24 Entering with I Misunderstood, Thompson's plaintive take on lost love, his voice at 75 remains strong, as does his inter-song banter. [...]

Published

2024

7. Exome copy number variant detection, analysis, and classification in a large cohort of families with undiagnosed rare genetic disease

Author

Lemire, Gabrielle, Sanchis-Juan, Alba, Russell, Kathryn, Baxter, Samantha, Chao, Katherine R., Singer-Berk, Moriel, Groopman, Emily, Wong, Isaac, England, Eleina, Goodrich, Julia, Pais, Lynn, Austin-Tse, Christina, DiTroia, Stephanie, O’Heir, Emily, Ganesh, Vijay S., Wojcik, Monica H., Evangelista, Emily, Snow, Hana, Osei-Owusu, Ikeoluwa, Fu, Jack, Singh, Mugdha, Mostovoy, Yulia, Huang, Steve, Garimella, Kiran, Kirkham, Samantha L., Neil, Jennifer E., Shao, Diane D., Walsh, Christopher A., Argilli, Emanuela, Le, Carolyn, Sherr, Elliott H., Gleeson, Joseph G., Shril, Shirlee, Schneider, Ronen, Hildebrandt, Friedhelm, Sankaran, Vijay G., Madden, Jill A., Genetti, Casie A., Beggs, Alan H., Agrawal, Pankaj B., Bujakowska, Kinga M., Place, Emily, Pierce, Eric A., Donkervoort, Sandra, Bönnemann, Carsten G., Gallacher, Lyndon, Stark, Zornitza, Tan, Tiong Yang, White, Susan M., Töpf, Ana, Straub, Volker, Fleming, Mark D., Pollak, Martin R., Õunap, Katrin, Pajusalu, Sander, Donald, Kirsten A., Bruwer, Zandre, Ravenscroft, Gianina, Laing, Nigel G., MacArthur, Daniel G., Rehm, Heidi L., Talkowski, Michael E., Brand, Harrison, and O’Donnell-Luria, Anne

Published

2024

8. Contrasting somatic mutation patterns in aging human neurons and oligodendrocytes

Author

Ganz, Javier, Luquette, Lovelace J., Bizzotto, Sara, Miller, Michael B., Zhou, Zinan, Bohrson, Craig L., Jin, Hu, Tran, Antuan V., Viswanadham, Vinayak V., McDonough, Gannon, Brown, Katherine, Chahine, Yasmine, Chhouk, Brian, Galor, Alon, Park, Peter J., and Walsh, Christopher A.

Published

2024

9. An evolutionary perspective on complex neuropsychiatric disease

Author

McClellan, Jon M., Zoghbi, Anthony W., Buxbaum, Joseph D., Cappi, Carolina, Crowley, James J., Flint, Jonathan, Grice, Dorothy E., Gulsuner, Suleyman, Iyegbe, Conrad, Jain, Sanjeev, Kuo, Po-Hsiu, Lattig, Maria Claudia, Passos-Bueno, Maria Rita, Purushottam, Meera, Stein, Dan J., Sunshine, Anna B., Susser, Ezra S., Walsh, Christopher A., Wootton, Olivia, and King, Mary-Claire

Published

2024

10. Real-world impact of emicizumab and immunosuppression on acquired hemophilia A: a multicenter US cohort

Author

Poston, Jacqueline N., Bryan, Cassandra, von Drygalski, Annette, Al Banaa, Kadhim, Zhou, Jenny Y., Parnes, Aric, Chen, Evan C., Khan, Osman, Ellsworth, Patrick, Cafuir, Lorraine, Walsh, Christopher, Escobar, Miguel A., Wu, James F., Malec, Lynn M., Kessler, Craig M., Janbain, Maissaa, and Kruse-Jarres, Rebecca

Published

2024

11. The Status Of Non-Competition Provisions In Employment Agreements

Author

Walsh, Christopher J.

Subjects

United States. Federal Trade Commission -- Powers and duties, Non-competition agreements -- Laws, regulations and rules, Labor contracts -- Laws, regulations and rules, Government regulation, Business, international

Abstract

Q: I have been reading a lot in the news recently about non-competition agreements, some sort of new federal regulation surrounding them, and court decisions about that regulation. What exactly [...]

Published

2024

12. Local Communities Responding To The Homelessness Crisis

Author

Walsh, Christopher J.

Subjects

United States. Supreme Court -- Cases, Homeless persons -- Homes and haunts -- Civil rights -- Cases, Homelessness -- Cases, Judicial opinions -- Cases, Local government -- Social policy -- United States, Public spaces -- Usage, Camp sites, facilities, etc. -- Usage, Company legal issue, Business, international

Abstract

Published: Greater Concord Chamber of Commerce Chamber Review Newsletter (September 2024) September 16, 2024 With Prior New Hampshire Precedent, Recent U.S. Supreme Court Ruling Gives Flexibility The homelessness crisis and [...]

Published

2024

13. Texas Federal Court Sets Aside The FTC's Rule Banning Non-Competes, With The Court's Order Having Nationwide Effect

Author

Walsh, Christopher J.

Subjects

Non-competition agreements -- Cases, Labor contracts -- Cases, Injunctions -- Cases, Company legal issue, Business, international

Abstract

Last week brought a major development in litigation surrounding the FTC's sweeping rule that would ban and render unenforceable most non-compete clauses in employment contracts. Specifically, on August 20, 2024, [...]

Published

2024

14. Spatial Single-cell Analysis Decodes Cortical Layer and Area Specification

Author

Qian, Xuyu, primary, Coleman, Kyle, additional, Jiang, Shunzhou, additional, Kriz, Andrea J, additional, Marciano, Jack H, additional, Luo, Chunyu, additional, Cai, Chunhui, additional, Manam, Monica D, additional, Caglayan, Emre, additional, Otani, Aoi, additional, Ghosh, Urmi, additional, Shao, Diane D, additional, Andersen, Rebecca E, additional, Neil, Jennifer E, additional, Johnson, Robert, additional, LeFevre, Alexandra, additional, Hecht, Jonathan L, additional, Miller, Michael B, additional, Sun, Liang, additional, Stringer, Carsen, additional, Li, Mingyao, additional, and Walsh, Christopher A, additional

Published

2024

15. Conserved transcriptional regulation by BRN1 and BRN2 in neocortical progenitors drives mammalian neural specification and neocortical expansion.

Author

Barão, Soraia, Xu, Yijun, Llongueras, José P., Vistein, Rachel, Goff, Loyal, Nielsen, Kristina J., Bae, Byoung-Il, Smith, Richard S., Walsh, Christopher A., Stein-O'Brien, Genevieve, and Müller, Ulrich

Subjects

SIZE of brain, REGULATOR genes, NEUROLOGICAL disorders, GENETIC transcription regulation, GENE expression

Abstract

The neocortex varies in size and complexity among mammals due to the tremendous variability in the number and diversity of neuronal subtypes across species. The increased cellular diversity is paralleled by the expansion of the pool of neocortical progenitors and the emergence of indirect neurogenesis during brain evolution. The molecular pathways that control these biological processes and are disrupted in neurological disorders remain largely unknown. Here we show that the transcription factors BRN1 and BRN2 have an evolutionary conserved function in neocortical progenitors to control their proliferative capacity and the switch from direct to indirect neurogenesis. Functional studies in mice and ferrets show that BRN1/2 act in concert with NOTCH and primary microcephaly genes to regulate progenitor behavior. Analysis of transcriptomics data from genetically modified macaques provides evidence that these molecular pathways are conserved in non-human primates. Our findings thus demonstrate that BRN1/2 are central regulators of gene expression programs in neocortical progenitors critical to determine brain size during evolution. How the diversity and number of neuronal subtypes across species drives neocortical size and complexity remains incompletely understood. Here authors demonstrate BRN1/2 act in concert with NOTCH and primary microcephaly genes to regulate evolutionarily conserved neocortical progenitor behavior across species and determine brain size. [ABSTRACT FROM AUTHOR]

Published

2024

16. Cell-type-specific effects of autism-associated chromosome 15q11.2-13.1 duplications in human brain

Author

Dias, Caroline, primary, Mo, Alisa, additional, Cai, Chunhui, additional, Sun, Liang, additional, Cabral, Kristen, additional, Brownstein, Catherine A., additional, Rockowitz, Shira, additional, and Walsh, Christopher A., additional

Published

2024

17. Growth Hormone Receptor Antagonist Markedly Improves Gemcitabine Response in a Mouse Xenograft Model of Human Pancreatic Cancer

Author

Basu, Reetobrata, primary, Kulkarni, Prateek, additional, Swegan, Deborah, additional, Duran-Ortiz, Silvana, additional, Ahmad, Arshad, additional, Caggiano, Lydia J, additional, Davis, Emily, additional, Walsh, Christopher, additional, Brenya, Edward, additional, Koshal, Adeel, additional, Brody, Rich, additional, Sandbhor, Uday, additional, Neggers, Sebastian J.C.M.M, additional, and Kopchick, John J, additional

Published

2024

18. Neurodevelopmental disorders associated variants inADAT3disrupt the activity of the ADAT2/ADAT3 tRNA deaminase complex and impair neuronal migration

Author

Del-Pozo-Rodriguez, Jordi, primary, Tilly, Peggy, additional, Lecat, Romain, additional, Vaca, Hugo Rolando, additional, Mosser, Laureline, additional, Balla, Till, additional, Gomes, Marina Vitoria, additional, Ramos-Morales, Elizabeth, additional, Brivio, Elena, additional, Salinas-Giégé, Thalia, additional, VanNoy, Grace, additional, England, Eleina M., additional, Lovgren, Alysia Kern, additional, O’Leary, Melanie, additional, Chopra, Maya, additional, Gable, Dustin, additional, Alnuzha, Aisha, additional, Kamel, Mona, additional, Almenabawy, Nihal, additional, O’Donnell-Luria, Anne, additional, Neil, Jennifer E., additional, Gleeson, Joseph G., additional, Walsh, Christopher A., additional, Elkhateeb, Nour, additional, Selim, Laila, additional, Srivastava, Siddharth, additional, Nedialkova, Danny D., additional, Drouard, Laurence, additional, Romier, Christophe, additional, Bayam, Efil, additional, and Godin, Juliette D., additional

Published

2024

19. An influential discovery

Author

Walsh, Christopher, primary

Published

2024

20. Growth Hormone Receptor Antagonist Markedly Improves Gemcitabine Response in a Mouse Xenograft Model of Human Pancreatic Cancer

Author

Basu, Reetobrata, Kulkarni, Prateek, Swegan, Deborah, Duran-Ortiz, Silvana, Ahmad, Arshad, Caggiano, Lydia J., Davis, Emily, Walsh, Christopher, Brenya, Edward, Koshal, Adeel, Brody, Rich, Sandbhor, Uday, Neggers, Sebastian J.C.M.M., Kopchick, John J., Basu, Reetobrata, Kulkarni, Prateek, Swegan, Deborah, Duran-Ortiz, Silvana, Ahmad, Arshad, Caggiano, Lydia J., Davis, Emily, Walsh, Christopher, Brenya, Edward, Koshal, Adeel, Brody, Rich, Sandbhor, Uday, Neggers, Sebastian J.C.M.M., and Kopchick, John J.

Abstract

Chemotherapy treatment against pancreatic ductal adenocarcinoma (PDAC) is thwarted by tumoral activation of multiple therapy resistance pathways. The growth hormone (GH)–GH receptor (GHR) pair is a covert driver of multimodal therapy resistance in cancer and is overexpressed in PDAC tumors, yet the therapeutic potential of targeting the same has not been explored. Here, we report that GHR expression is a negative prognostic factor in patients with PDAC. Combinations of gemcitabine with different GHR antagonists (GHRAs) markedly improve therapeutic outcomes in nude mice xenografts. Employing cultured cells, mouse xenografts, and analyses of the human PDAC transcriptome, we identified that attenuation of the multidrug transporter and epithelial-to-mesenchymal transition programs in the tumors underlie the observed augmentation of chemotherapy efficacy by GHRAs. Moreover, in human PDAC patients, GHR expression strongly correlates with a gene signature of tumor promotion and immune evasion, which corroborate with that in syngeneic tumors in wild-type vs. GH transgenic mice. Overall, we found that GH action in PDAC promoted a therapy-refractory gene signature in vivo, which can be effectively attenuated by GHR antagonism. Our results collectively present a proof of concept toward considering GHR antagonists to improve chemotherapeutic outcomes in the highly chemoresistant PDAC.

Published

2024

21. Cux-2 Controls the Proliferation of Neuronal Intermediate Precursors of the Cortical Subventricular Zone

Author

Cubelos, Beatriz, Seonhee, Kim, Moreno-Ortiz, Carmen, Redondo, Juan Miguel, Walsh, Christopher A., Nieto, Marta, Sebastián Serrano, Álvaro, Cubelos, Beatriz, Seonhee, Kim, Moreno-Ortiz, Carmen, Redondo, Juan Miguel, Walsh, Christopher A., Nieto, Marta, and Sebastián Serrano, Álvaro

Abstract

Whereas neurons of the lower layers (VI-V) of the cerebral cortex are first born from dividing precursors at the ventricular zone, upper layer neurons (II-IV) subsequently arise from divisions of intermediate neuronal precursors at the subventricular zone (SVZ). Little is known about mechanisms that control the proliferation of SVZ neuronal precursors. We herein report that the restricted expression of the homeodomain transcription factor Cux-2 in the SVZ regulates the proliferation of intermediate neuronal precursors and the number of upper layer neurons. In Cux-2-deficient mice (Cux-2-/-), there is excessive number of upper layer neurons and selective expansion of SVZ neuronal precursors. Double-labeling experiments demonstrate that Cux-2-/- upper layer precursors reenter the cell cycle in a higher frequency than wild-type precursors. Overexpression studies indicate that Cux-2 controls cell cycle exit in a cell-autonomous manner. Analysis of Cux-1-/-; Cux-2-/- double mutant revealed that Cux-2 controls SVZ proliferation independently of Cux-1, demonstrating that this is a unique function of Cux-2, not redundant with Cux-1 activities. Our results point to Cux-2 as a key element in the control of the proliferation rates of the SVZ precursors and the number of upper cortical neurons, without altering the number of deep cortical layers., Depto. de Bioquímica y Biología Molecular, Fac. de Medicina, TRUE, pub

Published

2024

22. Cux‐1 and Cux‐2 control the development of Reelin expressing cortical interneurons

Author

Cubelos, Beatriz, Kim, Seonhee, Redondo, Juan Miguel, Walsh, Christopher, Nieto, Marta, Sebastián Serrano, Álvaro, Cubelos, Beatriz, Kim, Seonhee, Redondo, Juan Miguel, Walsh, Christopher, Nieto, Marta, and Sebastián Serrano, Álvaro

Abstract

Homeodomain transcription factors play important roles in the specification and differentiation of neuronal subpopulations. In the cerebral cortex, the expression patterns of Cux‐1 and Cux‐2 in the medial ganglionic eminence (MGE) suggest a role for these transcription factors in the development of interneurons, a heterogeneous neuronal population. In this report, we describe expression of Cux‐1 and Cux‐2 proteins in Reelin‐secreting interneurons of the cortical plate, but not in calretinin or parvalbumin subpopulations. The role of Cux genes in the development of Reelin positive neurons was studied using Cux‐1 and Cux‐2 knockout mice. These experiments demonstrate that Cux‐1−/−; Cux‐2−/− double mutation is embryonically lethal. Although this phenotype is highly penetrant, a small proportion of mice develop to birth (P0). Analysis of these animals demonstrate that expression of Reelin is completely absent in layers II–IV of Cux‐1−/−; Cux‐2−/− double mutant mice, but it is not affected in the cortex of Cux‐1−/− or Cux‐2−/− single mutants. No Cux‐1−/−; Cux‐2−/− double‐mutant were collected after P0. Since, GABA‐ergic populations mature at late postnatal stages, this did not allow us to analyze the expression of subclass specific markers and define the affected interneuron subpopulations. Our analysis of Cux‐1−/−; Cux‐2−/− double mutant thus demonstrates essential yet redundant roles for Cux‐1 and Cux‐2 in specifying Reelin expressing cortical interneurons. © 2008 Wiley Periodicals, Inc. Develop Neurobiol, 2008., Depto. de Bioquímica y Biología Molecular, Fac. de Medicina, TRUE, pub

Published

2024

23. Cux1 and Cux2 Regulate Dendritic Branching, Spine Morphology, and Synapses of the Upper Layer Neurons of the Cortex

Author

Cubelos, Beatriz, Beccari, Leonardo, Calcagnotto, Maria Elisa, Cisneros, Elsa, Kim, Seonhee, Dopazo, Ana, Alvarez-Dolado, Manuel, Redondo, Juan Miguel, Bovolenta, Paola, A. Walsh, Christopher, Nieto, Marta, Sebastián Serrano, Álvaro, Cubelos, Beatriz, Beccari, Leonardo, Calcagnotto, Maria Elisa, Cisneros, Elsa, Kim, Seonhee, Dopazo, Ana, Alvarez-Dolado, Manuel, Redondo, Juan Miguel, Bovolenta, Paola, A. Walsh, Christopher, Nieto, Marta, and Sebastián Serrano, Álvaro

Abstract

Dendrite branching and spine formation determines the function of morphologically distinct and specialized neuronal subclasses. However, little is known about the programs instructing specific branching patterns in vertebrate neurons and whether such programs influence dendritic spines and synapses. Using knockout and knockdown studies combined with morphological, molecular, and electrophysiological analysis, we show that the homeobox Cux1 and Cux2 are intrinsic and complementary regulators of dendrite branching, spine development, and synapse formation in layer II-III neurons of the cerebral cortex. Cux genes control the number and maturation of dendritic spines partly through direct regulation of the expression of Xlr3b and Xlr4b, chromatin remodeling genes previously implicated in cognitive defects. Accordingly, abnormal dendrites and synapses in Cux2(-/-) mice correlate with reduced synaptic function and defects in working memory. These demonstrate critical roles of Cux in dendritogenesis and highlight subclass-specific mechanisms of synapse regulation that contribute to the establishment of cognitive circuits., Depto. de Bioquímica y Biología Molecular, Fac. de Medicina, TRUE, pub

Published

2024

24. Big Head Todd & The Monsters

Author

Walsh, Christopher

Subjects

Music

Abstract

Big Head Todd & The Monsters New Haven College Street Music Hall, Connecticut, US 27/1/24 BHTM began their 90 minutes with the riff-laden New World Arisin' and adrenaline rush Fortune [...]

Published

2024

25. Neuropathologically directed profiling of PRNP somatic and germline variants in sporadic human prion disease.

Author

McDonough, Gannon A., Cheng, Yuchen, Morillo, Katherine S., Doan, Ryan N., Zhou, Zinan, Kenny, Connor J., Foutz, Aaron, Kim, Chae, Cohen, Mark L., Appleby, Brian S., Walsh, Christopher A., Safar, Jiri G., Huang, August Yue, and Miller, Michael B.

Subjects

PRION diseases, SOMATIC mutation, CREUTZFELDT-Jakob disease, SCRAPIE, GERM cells, DNA sequencing

Abstract

Creutzfeldt–Jakob Disease (CJD), the most common human prion disease, is associated with pathologic misfolding of the prion protein (PrP), encoded by the PRNP gene. Of human prion disease cases, < 1% were transmitted by misfolded PrP, ~ 15% are inherited, and ~ 85% are sporadic (sCJD). While familial cases are inherited through germline mutations in PRNP, the cause of sCJD is unknown. Somatic mutations have been hypothesized as a cause of sCJD, and recent studies have revealed that somatic mutations accumulate in neurons during aging. To investigate the hypothesis that somatic mutations in PRNP may underlie sCJD, we performed deep DNA sequencing of PRNP in 205 sCJD cases and 170 age-matched non-disease controls. We included 5 cases of Heidenhain variant sporadic CJD (H-sCJD), where visual symptomatology and neuropathology implicate localized initiation of prion formation, and examined multiple regions across the brain including in the affected occipital cortex. We employed Multiple Independent Primer PCR Sequencing (MIPP-Seq) with a median depth of > 5000× across the PRNP coding region and analyzed for variants using MosaicHunter. An allele mixing experiment showed positive detection of variants in bulk DNA at a variant allele fraction (VAF) as low as 0.2%. We observed multiple polymorphic germline variants among individuals in our cohort. However, we did not identify bona fide somatic variants in sCJD, including across multiple affected regions in H-sCJD, nor in control individuals. Beyond our stringent variant-identification pipeline, we also analyzed VAFs from raw sequencing data, and observed no evidence of prion disease enrichment for the known germline pathogenic variants P102L, D178N, and E200K. The lack of PRNP pathogenic somatic mutations in H-sCJD or the broader cohort of sCJD suggests that clonal somatic mutations may not play a major role in sporadic prion disease. With H-sCJD representing a localized presentation of neurodegeneration, this serves as a test of the potential role of clonal somatic mutations in genes known to cause familial neurodegeneration. [ABSTRACT FROM AUTHOR]

Published

2024

26. Contributions of Germline and Somatic Mosaic Genetics to Thoracic Aortic Aneurysms in Nonsyndromic Individuals.

Author

Ming Hui Chen, Deng, Ellen S., Yamada, Jessica M., Choudhury, Sangita, Scotellaro, Julia, Kelley, Lily, Isselbacher, Eric, Lindsay, Mark E., Walsh, Christopher A., and Doan, Ryan N.

Published

2024

27. ARX regulates interneuron subtype differentiation and migration

Author

Cho, Ginam, primary, Lim, Youngshin, additional, Akula, Shyam K, additional, Myers, Abbigail K, additional, Chen, Connie, additional, Rafael, Katherine, additional, Walsh, Christopher A, additional, and Golden, Jeffrey A, additional

Published

2024

28. Somatic Mosaicism in PIK3CA Variant Correlates With Stereoelectroencephalography-Derived Electrophysiology

Author

Phillips, H. Westley, primary, D'Gama, Alissa M., additional, Wang, Yilan, additional, Chahine, Yasmine, additional, Chiu, Michelle, additional, Swanson, Amanda C., additional, Ahtam, Banu, additional, Bolton, Jeffrey B., additional, Madsen, Joseph R., additional, Lee, Eunjung A., additional, Prabhu, Sanjay P., additional, Lidov, Hart G., additional, Papadakis, Joanna, additional, Huang, August Y., additional, Poduri, Annapurna, additional, Stone, Scellig S., additional, and Walsh, Christopher A., additional

Published

2024

29. Superyachts could support satellite ocean colour validation

Author

Brewin, Robert J. W., primary, Sun, Xuerong, additional, Aurin, Dirk A., additional, Viljoen, Johannes J., additional, Walsh, Christopher, additional, and Sathyendranath, Shubha, additional

Published

2024

30. Case report: A founder UGDH variant associated with developmental epileptic encephalopathy in Saudi Arabia

Author

Alaamery, Manal, primary, Massadeh, Salam, additional, Aldarwish, Manar, additional, Albesher, Nour, additional, Aljawini, Nora, additional, Alahmed, Othman, additional, Kashgari, Amna, additional, Walsh, Christopher A., additional, and Eyaid, Wafaa, additional

Published

2024

31. Somatic cancer driver mutations are enriched and associated with inflammatory states in Alzheimer’s disease microglia

Author

Huang, August Yue, primary, Zhou, Zinan, additional, Talukdar, Maya, additional, Miller, Michael B., additional, Chhouk, Brian, additional, Enyenihi, Liz, additional, Rosen, Ila, additional, Stronge, Edward, additional, Zhao, Boxun, additional, Kim, Dachan, additional, Choi, Jaejoon, additional, Khoshkhoo, Sattar, additional, Kim, Junho, additional, Ganz, Javier, additional, Travaglini, Kyle, additional, Gabitto, Mariano, additional, Hodge, Rebecca, additional, Kaplan, Eitan, additional, Lein, Ed, additional, De Jager, Philip L., additional, Bennett, David A., additional, Lee, Eunjung Alice, additional, and Walsh, Christopher A., additional

Published

2024

32. KISS

Author

Walsh, Christopher

Subjects

Music

Abstract

KISS Baltimore CFG Bank Arena, US 29/11/23 KISS brought the spectacle and the bombast, flames, confetti, balloons, Gene Simmons spitting blood, and Paul Stanley belting out Cold Gin, Deuce and [...]

Published

2024

33. Shemekia Copeland

Author

Walsh, Christopher

Subjects

Music

Abstract

Shemekia Copeland Fairfield Theater Company, Connecticut, US 4/11/23 Copeland's voice eased from Koko Taylor to Whitney Flouston, with topical issues such as Ain't Got Time For Hate and Clotilda's On [...]

Published

2024

34. P208: Insights into diagnostic yield and novel genetic etiologies for unilateral polymicrogyria

Author

Lai, Abbe, Neil, Jennifer, Rodan, Lance, El Achkar, Achkar Moufawad, Akula, Shyam, Barkovich, Anthony, Chen, Allen, Shao, Diane, Wiltrout, Kimberly, Mochida, Ganeshwaran, Olson, Heather, Yang, Edward, Poduri, Annapurna, and Walsh, Christopher

Published

2024

35. Activation of the Pacidamycin PacL Adenylation Domain by MbtH-like Proteins

Author

Zhang, Wenjun, Heemstra, John R., Walsh, Christopher T., and Imker, Heidi J.

Abstract

Nonribosomal peptide synthetase (NRPS) assembly lines are major avenues for the biosynthesis of a vast array of peptidyl natural products. Several hundred bacterial NRPS gene clusters contain a small (∼70-residue) protein belonging to the MbtH family for which no function has been defined. Here we show that two strictly conserved Trp residues in MbtH-like proteins contribute to stimulation of amino acid adenylation in some NRPS modules. We also demonstrate that adenylation can be stimulated not only by cognate MbtH-like proteins but also by homologues from disparate natural product pathways.

Published

2024

36. Predictability of European winter 2022/23.

Author

Stringer, Nicky, Scaife, Adam A., Bulmer, Chris, Davies, Paul, Dunstone, Nick, Gordon, Margaret, Ineson, Sarah, Knight, Jeff, Mancell, Joseph, McLean, Peter, Smith, Doug, Walker, Brent, and Walsh, Christopher

Subjects

*NORTH Atlantic oscillation, *WEATHER forecasting, *SEASONS, *DISEASE complications, LA Nina

Abstract

The boreal winter of 2022/23 was notable as a third consecutive winter in which La Niña had an influence on the European weather. The GloSea6 seasonal forecast system predicted a blocked circulation pattern in the North Atlantic in early winter (December), and then a transition through mid‐winter (January) into a more zonal pattern in late winter (February), consistent with the canonical La Niña teleconnection pattern seen previously. The seasonal forecast for the UK was an increased likelihood of near average temperatures, and drier‐ and calmer‐than‐average conditions. Both the predicted broad‐scale circulation patterns and UK winter mean weather conditions verified well against observations, and we show that seasonal forecasts of the North Atlantic Oscillation (NAO) over the last 10 winters show similar skill to previously reported hindcasts. Throughout the winter, the Madden–Julian Oscillation (MJO) was particularly active. On three occasions, it exhibited strong phases 6 and 7. There was also a sudden stratospheric warming (SSW) that occurred on 16th February. This was followed by colder conditions and associated impacts similar to the canonical negative NAO response over the UK, although the main impact fell in March and so did not affect the winter (December–January–February) mean conditions. [ABSTRACT FROM AUTHOR]

Published

2024

37. 417. Diagnostic Complexity, Symptomatology, and Functioning in Two Early-Onset Psychosis Family Studies: Epicenter and Epimex.

Author

Mollon, Josephine, Mathias, Samuel, Lanzagorta, Nuria, Rodrigue, Amanda, Knowles, Emma, Deaso, Emma, Cadavid, Laura, Saavedra, Jimena Unzueta, Phelps, Elizabeth, Polat, Nil, Brownstein, Catherine, D'Angelo, Eugene, Deo, Anthony, Gonzalez-Heydrich, Joseph, Sarmiento, Emmanuel, Walsh, Christopher, Almasy, Laura, Nicolini, Humberto, and Glahn, David

Subjects

*SYMPTOMS, *PSYCHOSES, *FAMILIES

Published

2024

38. Somatic mosaicism in schizophrenia brains reveals prenatal mutational processes.

Author

Maury EA, Jones A, Seplyarskiy V, Nguyen TTL, Rosenbluh C, Bae T, Wang Y, Abyzov A, Khoshkhoo S, Chahine Y, Zhao S, Venkatesh S, Root E, Voloudakis G, Roussos P, Park PJ, Akbarian S, Brennand K, Reilly S, Lee EA, Sunyaev SR, Walsh CA, and Chess A

Subjects

Female, Humans, Male, Binding Sites, Case-Control Studies, Chromatin metabolism, CpG Islands, Neurogenesis genetics, Neurons metabolism, Whole Genome Sequencing, Brain embryology, Brain metabolism, Mosaicism, Schizophrenia genetics, Transcription Factors genetics, Transcription Factors metabolism, Germ-Line Mutation

Abstract

Germline mutations modulate the risk of developing schizophrenia (SCZ). Much less is known about the role of mosaic somatic mutations in the context of SCZ. Deep (239×) whole-genome sequencing (WGS) of brain neurons from 61 SCZ cases and 25 controls postmortem identified mutations occurring during prenatal neurogenesis. SCZ cases showed increased somatic variants in open chromatin, with increased mosaic CpG transversions (CpG>GpG) and T>G mutations at transcription factor binding sites (TFBSs) overlapping open chromatin, a result not seen in controls. Some of these variants alter gene expression, including SCZ risk genes and genes involved in neurodevelopment. Although these mutational processes can reflect a difference in factors indirectly involved in disease, increased somatic mutations at developmental TFBSs could also potentially contribute to SCZ.

Published

2024

39. Perinatal Reduction of Genetically Aberrant Neurons from Human Cerebral Cortex.

Author

Shao DD, Zhao Y, Ghosh U, Brew J, Zhao S, Qian X, Tran J, Taketomi T, Tsuruta F, Park PJ, and Walsh CA

Abstract

Since human neurons are postmitotic and long-lived, the regulation of their genomic content is crucial. Normal neuronal function is uniquely dependent on gene dosage, with diverse genome copy number alterations (CNA) associated with neurodevelopmental and neuropsychiatric conditions 1-3 . In this study, we evaluated the landscape of CNA arising in normal human brains, focusing on prenatal and perinatal ages. We surveyed ∼5,897 CNA in >1,200 single neurons from human postmortem brain of individuals without a neurological diagnosis, ranging in age from gestational week (GW) 14 to 90 years old. Using Tn5-based single-cell whole-genome amplification (scWGA) and informatic advances to validate CNAs in single neurons, we determined that a striking proportion of neurons (up to 45%) in human prenatal cortex showed aberrant genomes, characterized by large-scale CNAs in multiple chromosomes, which reduces significantly during the perinatal period (p<0.1). Furthermore, we identified micronuclei in the developing cortex, reflecting genetic instability reminiscent of that described in early embryonic development 4-6 . The scale of CNA appeared to alter the trajectory of neuronal elimination, as subchromosomal CNAs were more slowly eliminated, over the course of a lifetime. CNAs were depleted for dosage-sensitive genes and genes involved in neurodevelopmental disorders (p<.05), and thus represent genomic quality control mechanisms that eliminate selectively those neurons with CNA involving critical genes. Perinatal elimination of defective neuronal genomes may in turn reflect a developmental landmark essential for normal cognitive function.

Published

2024

40. Analysis of DNA from brain tissue on stereo-EEG electrodes reveals mosaic epilepsy-related variants.

Author

D'Gama AM, Phillips HW, Wang Y, Chiu MY, Chahine Y, Swanson AC, Smith RS, Pearl PL, Tsuboyama M, Madsen JR, Lidov H, Lee EA, Prabhu SP, Huang AY, Stone SSD, Walsh CA, and Poduri A

Abstract

Somatic mosaic variants contribute to focal epilepsy, but genetic analysis has been limited to patients with drug-resistant epilepsy (DRE) who undergo surgical resection, as the variants are mainly brain-limited. Stereoelectroencephalography (sEEG) has become part of the evaluation for many patients with focal DRE, and sEEG electrodes provide a potential source of small amounts of brain-derived DNA. We aimed to identify, validate, and assess the distribution of potentially clinically relevant mosaic variants in DNA extracted from trace brain tissue on individual sEEG electrodes. We enrolled a prospective cohort of eleven pediatric patients with DRE who had sEEG electrodes implanted for invasive monitoring, one of whom was previously reported. We extracted unamplified DNA from the trace brain tissue on each sEEG electrode and also performed whole-genome amplification for each sample. We extracted DNA from resected brain tissue and blood/saliva samples where available. We performed deep panel and exome sequencing on a subset of samples from each case and analysis for potentially clinically relevant candidate germline and mosaic variants. We validated candidate mosaic variants using amplicon sequencing and assessed the variant allele fraction (VAF) in amplified and unamplified electrode-derived DNA and across electrodes. We extracted DNA from >150 individual electrodes from 11 individuals and obtained higher concentrations of whole-genome amplified vs unamplified DNA. Immunohistochemistry confirmed the presence of neurons in the brain tissue on electrodes. Deep sequencing and analysis demonstrated similar depth of coverage between amplified and unamplified samples but significantly more called mosaic variants in amplified samples. In addition to the mosaic PIK3CA variant detected in a previously reported case from our group, we identified and validated four potentially clinically relevant mosaic variants in electrode-derived DNA in three patients who underwent laser ablation and did not have resected brain tissue samples available. The variants were detected in both amplified and unamplified electrode-derived DNA, with higher VAFs observed in DNA from electrodes in closest proximity to the electrical seizure focus in some cases. This study demonstrates that mosaic variants can be identified and validated from DNA extracted from trace brain tissue on individual sEEG electrodes in patients with drug-resistant focal epilepsy and in both amplified and unamplified electrode-derived DNA samples. Our findings support a relationship between the extent of regional genetic abnormality and electrophysiology, and suggest that with further optimization, this minimally invasive diagnostic approach holds promise for advancing precision medicine for patients with DRE as part of the surgical evaluation.

Published

2024

41. Contributions of Germline and Somatic Mosaic Genetics to Thoracic Aortic Aneurysms in Nonsyndromic Individuals.

Author

Chen MH, Deng ES, Yamada JM, Choudhury S, Scotellaro J, Kelley L, Isselbacher E, Lindsay ME, Walsh CA, and Doan RN

Subjects

Humans, Male, Female, Adult, Middle Aged, Receptor, Notch3 genetics, Fibrillin-1 genetics, Case-Control Studies, Phenotype, Filamins genetics, Risk Factors, High-Throughput Nucleotide Sequencing, Adipokines, Aortic Aneurysm, Thoracic genetics, Aortic Aneurysm, Thoracic diagnosis, Mosaicism, Germ-Line Mutation, Genetic Predisposition to Disease

Abstract

Background: Thoracic aortic aneurysm (TAA) is associated with significant morbidity and mortality. Although individuals with family histories of TAA often undergo clinical molecular genetic testing, adults with nonsyndromic TAA are not typically evaluated for genetic causes. We sought to understand the genetic contribution of both germline and somatic mosaic variants in a cohort of adult individuals with nonsyndromic TAA at a single center., Methods and Results: One hundred eighty-one consecutive patients <60 years who presented with nonsyndromic TAA at the Massachusetts General Hospital underwent deep (>500×) targeted sequencing across 114 candidate genes associated with TAA and its related functional pathways. Samples from 354 age- and sex-matched individuals without TAA were also sequenced, with a 2:1 matching. We found significant enrichments for germline (odds ratio [OR], 2.44, P =4.6×10 -6 [95% CI, 1.67-3.58]) and also somatic mosaic variants (OR, 4.71, P =0.026 [95% CI, 1.20-18.43]) between individuals with and without TAA. Likely genetic causes were present in 24% with nonsyndromic TAA, of which 21% arose from germline variants and 3% from somatic mosaic alleles. The 3 most frequently mutated genes in our cohort were FLNA (encoding Filamin A), NOTCH3 (encoding Notch receptor 3), and FBN1 (encoding Fibrillin-1). There was increased frequency of both missense and loss of function variants in TAA individuals., Conclusions: Likely contributory dominant acting genetic variants were found in almost one quarter of nonsyndromic adults with TAA. Our findings suggest a more extensive genetic architecture to TAA than expected and that genetic testing may improve the care and clinical management of adults with nonsyndromic TAA.

Published

2024

42. Growth Hormone Receptor Antagonist Markedly Improves Gemcitabine Response in a Mouse Xenograft Model of Human Pancreatic Cancer.

Author

Basu R, Kulkarni P, Swegan D, Duran-Ortiz S, Ahmad A, Caggiano LJ, Davis E, Walsh C, Brenya E, Koshal A, Brody R, Sandbhor U, Neggers SJCMM, and Kopchick JJ

Subjects

Animals, Humans, Mice, Cell Line, Tumor, Mice, Nude, Drug Resistance, Neoplasm drug effects, Gene Expression Regulation, Neoplastic drug effects, Female, Gemcitabine, Deoxycytidine analogs & derivatives, Deoxycytidine pharmacology, Deoxycytidine therapeutic use, Pancreatic Neoplasms drug therapy, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms pathology, Pancreatic Neoplasms genetics, Xenograft Model Antitumor Assays, Receptors, Somatotropin metabolism, Receptors, Somatotropin antagonists & inhibitors, Receptors, Somatotropin genetics, Carcinoma, Pancreatic Ductal drug therapy, Carcinoma, Pancreatic Ductal metabolism, Carcinoma, Pancreatic Ductal pathology, Carcinoma, Pancreatic Ductal genetics

Abstract

Chemotherapy treatment against pancreatic ductal adenocarcinoma (PDAC) is thwarted by tumoral activation of multiple therapy resistance pathways. The growth hormone (GH)-GH receptor (GHR) pair is a covert driver of multimodal therapy resistance in cancer and is overexpressed in PDAC tumors, yet the therapeutic potential of targeting the same has not been explored. Here, we report that GHR expression is a negative prognostic factor in patients with PDAC. Combinations of gemcitabine with different GHR antagonists (GHRAs) markedly improve therapeutic outcomes in nude mice xenografts. Employing cultured cells, mouse xenografts, and analyses of the human PDAC transcriptome, we identified that attenuation of the multidrug transporter and epithelial-to-mesenchymal transition programs in the tumors underlie the observed augmentation of chemotherapy efficacy by GHRAs. Moreover, in human PDAC patients, GHR expression strongly correlates with a gene signature of tumor promotion and immune evasion, which corroborate with that in syngeneic tumors in wild-type vs. GH transgenic mice. Overall, we found that GH action in PDAC promoted a therapy-refractory gene signature in vivo, which can be effectively attenuated by GHR antagonism. Our results collectively present a proof of concept toward considering GHR antagonists to improve chemotherapeutic outcomes in the highly chemoresistant PDAC.

Published

2024

43. Anesthetic management with labor epidural analgesia of the parturient with severe factor VII deficiency: a case report.

Author

Hyers B, Cabrera C, Walsh C, Reddy A, Strulowitz T, Hamburger J, Knibbs N, Katz D, Ferrara L, and Beilin Y

Abstract

Background: Factor VII deficiency is considered a contraindication to neuraxial anesthesia due to the risk of an epidural hematoma., Case Report: A 32 year old G1P0 parturient with severe factor VII deficiency presented for an anesthesiology consultation at 32 weeks gestation. Initial coagulation studies were significant for an elevated INR (2.0) and a low factor VII level of 6%. After interdisciplinary discussion, it was decided that neuraxial analgesia could be offered if her coagulation studies corrected after administration of recombinant activated factor VII (rFVIIa). The patient presented at 36 weeks gestation for a rFVIIa challenge. She received 22 mcg/kg rFVIIa and coagulation studies were analyzed 20 minutes later which showed complete correction of the coagulopathy. The patient presented to the hospital at 39 weeks and 3 days for delivery, received 2 mg rFVIIa and 20 minutes later, successfully received an epidural catheter. Her INR was monitored every 3 hours during her labor course and rFVIIa was given if the INR was 1.3 or greater. She required three additional doses over 22 hours. No bleeding or thrombotic events occurred, and the patient was discharged home without complications., Conclusion: This case highlights the safe management of an epidural catheter in a parturient with severe factor VII deficiency., Competing Interests: Competing interests: None declared., (© American Society of Regional Anesthesia & Pain Medicine 2024. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2024

44. Neuropathologically-directed profiling of PRNP somatic and germline variants in sporadic human prion disease.

Author

McDonough GA, Cheng Y, Morillo K, Doan RN, Kenny CJ, Foutz A, Kim C, Cohen ML, Appleby BS, Walsh CA, Safar JG, Huang AY, and Miller MB

Abstract

Creutzfeldt-Jakob Disease (CJD), the most common human prion disease, is associated with pathologic misfolding of the prion protein (PrP), encoded by the PRNP gene. Of human prion disease cases, ~1% were transmitted by misfolded PrP, ~15% are inherited, and ~85% are sporadic (sCJD). While familial cases are inherited through germline mutations in PRNP , the cause of sCJD is unknown. Somatic mutations have been hypothesized as a cause of sCJD, and recent studies have revealed that somatic mutations accumulate in neurons during aging. To investigate the hypothesis that somatic mutations in PRNP may underlie sCJD, we performed deep DNA sequencing of PRNP in 205 sCJD cases and 170 age-matched non-disease controls. We included 5 cases of Heidenhain variant sporadic CJD (H-sCJD), where visual symptomatology and neuropathology implicate focal initiation of prion formation, and examined multiple regions across the brain including in the affected occipital cortex. We employed Multiple Independent Primer PCR Sequencing (MIPP-Seq) with a median depth of >5,000X across the PRNP coding region and analyzed for variants using MosaicHunter. An allele mixing experiment showed positive detection of variants in bulk DNA at a variant allele fraction (VAF) as low as 0.2%. We observed multiple polymorphic germline variants among individuals in our cohort. However, we did not identify bona fide somatic variants in sCJD, including across multiple affected regions in H-sCJD, nor in control individuals. Beyond our stringent variant-identification pipeline, we also analyzed VAFs from raw sequencing data, and observed no evidence of prion disease enrichment for the known germline pathogenic variants P102L, D178N, and E200K. The lack of PRNP pathogenic somatic mutations in H-sCJD or the broader cohort of sCJD suggests that clonal somatic mutations may not play a major role in sporadic prion disease. With H-sCJD representing a focal presentation of neurodegeneration, this serves as a test of the potential role of clonal somatic mutations in genes known to cause familial neurodegeneration., Competing Interests: Competing interests C.A.W. is a paid consultant (cash, no equity) to Third Rock Ventures and Flagship Pioneering (cash, no equity) and is on the Clinical Advisory Board (cash and equity) of Maze Therapeutics. No research support is received. These companies did not fund and had no role in the conception or performance of this research project. B.S.A. has received research funding from CDC, NIH, CJD Foundation, and Ionis. B.S.A. has provided consultation for Ionis, Gates Biosciences, and Sangamo and received royalties from Wolter-Kluwer. All other authors have no competing interests to declare.

Published

2024

45. Rare germline disorders implicate long non-coding RNAs disrupted by chromosomal structural rearrangements.

Author

Andersen RE, Alkuraya IF, Ajeesh A, Sakamoto T, Mena EL, Amr SS, Romi H, Kenna MA, Robson CD, Wilch ES, Nalbandian K, Piña-Aguilar R, Walsh CA, and Morton CC

Abstract

In recent years, there has been increased focus on exploring the role the non-protein-coding genome plays in Mendelian disorders. One class of particular interest is long non-coding RNAs (lncRNAs), which has recently been implicated in the regulation of diverse molecular processes. However, because lncRNAs do not encode protein, there is uncertainty regarding what constitutes a pathogenic lncRNA variant, and thus annotating such elements is challenging. The Developmental Genome Anatomy Project (DGAP) and similar projects recruit individuals with apparently balanced chromosomal abnormalities (BCAs) that disrupt or dysregulate genes in order to annotate the human genome. We hypothesized that rearrangements disrupting lncRNAs could be the underlying genetic etiology for the phenotypes of a subset of these individuals. Thus, we assessed 279 cases with BCAs and selected 191 cases with simple BCAs (breakpoints at only two genomic locations) for further analysis of lncRNA disruptions. From these, we identified 66 cases in which the chromosomal rearrangements directly disrupt lncRNAs. Strikingly, the lncRNAs MEF2C-AS1 and ENSG00000257522 are each disrupted in two unrelated cases. Furthermore, in 30 cases, no genes of any other class aside from lncRNAs are directly disrupted, consistent with the hypothesis that lncRNA disruptions could underly the phenotypes of these individuals. To showcase the power of this genomic approach for annotating lncRNAs, here we focus on clinical reports and genetic analysis of two individuals with BCAs and additionally highlight six individuals with likely developmental etiologies due to lncRNA disruptions.

Published

2024

46. Spatial Single-cell Analysis Decodes Cortical Layer and Area Specification.

Author

Qian X, Coleman K, Jiang S, Kriz AJ, Marciano JH, Luo C, Cai C, Manam MD, Caglayan E, Otani A, Ghosh U, Shao DD, Andersen RE, Neil JE, Johnson R, LeFevre A, Hecht JL, Miller MB, Sun L, Stringer C, Li M, and Walsh CA

Abstract

The human cerebral cortex, pivotal for advanced cognitive functions, is composed of six distinct layers and dozens of functionally specialized areas 1,2 . The layers and areas are distinguished both molecularly, by diverse neuronal and glial cell subtypes, and structurally, through intricate spatial organization 3,4 . While single-cell transcriptomics studies have advanced molecular characterization of human cortical development, a critical gap exists due to the loss of spatial context during cell dissociation 5,6,7,8 . Here, we utilized multiplexed error-robust fluorescence in situ hybridization (MERFISH) 9 , augmented with deep-learning-based cell segmentation, to examine the molecular, cellular, and cytoarchitectural development of human fetal cortex with spatially resolved single-cell resolution. Our extensive spatial atlas, encompassing 16 million single cells, spans eight cortical areas across four time points in the second and third trimesters. We uncovered an early establishment of the six-layer structure, identifiable in the laminar distribution of excitatory neuronal subtypes by mid-gestation, long before the emergence of cytoarchitectural layers. Notably, while anterior-posterior gradients of neuronal subtypes were generally observed in most cortical areas, a striking exception was the sharp molecular border between primary (V1) and secondary visual cortices (V2) at gestational week 20. Here we discovered an abrupt binary shift in neuronal subtype specification at the earliest stages, challenging the notion that continuous morphogen gradients dictate mid-gestation cortical arealization 6,10 . Moreover, integrating single-nuclei RNA-sequencing and in situ whole transcriptomics revealed an early upregulation of synaptogenesis in V1-specific Layer 4 neurons, suggesting a role of synaptogenesis in this discrete border formation. Collectively, our findings underscore the crucial role of spatial relationships in determining the molecular specification of cortical layers and areas. This work not only provides a valuable resource for the field, but also establishes a spatially resolved single-cell analysis paradigm that paves the way for a comprehensive developmental atlas of the human brain., Competing Interests: Competing interests C.A.W. has stock ownership in Maze Therapeutics, and is a paid consultant for Third Rock Ventures and Flagship Pioneering. Mingyao Li receives research funding from Biogen Inc., unrelated to the current manuscript. Mingyao Li is a cofounder of OmicPath AI LLC. The remaining authors declare no competing interests.

Published

2024

47. ARX regulates cortical interneuron differentiation and migration.

Author

Lim Y, Akula SK, Myers AK, Chen C, Rafael KA, Walsh CA, Golden JA, and Cho G

Abstract

Mutations in aristaless-related homeobox ( ARX ) are associated with neurodevelopmental disorders including developmental epilepsies, intellectual disabilities, and autism spectrum disorders, with or without brain malformations. Aspects of these disorders have been linked to abnormal cortical interneuron (cIN) development and function. To further understand ARX's role in cIN development, multiple Arx mutant mouse lines were interrogated. We found that ARX is critical for controlling cIN numbers and distribution, especially, in the developing marginal zone (MZ). Single cell transcriptomics and ChIP-seq, combined with functional studies, revealed ARX directly or indirectly regulates genes involved in proliferation and the cell cycle (e.g., Bub3 , Cspr3 ), fate specification (e.g., Nkx2.1 , Maf , Mef2c ), and migration (e.g., Nkx2.1 , Lmo1 , Cxcr4 , Nrg1 , ErbB4 ). Our data suggest that the MZ stream defects primarily result from disordered cell-cell communication. Together our findings provide new insights into the mechanisms underlying cIN development and migration and how they are disrupted in several disorders.

Published

2024

48. Single-nucleus multi-omic profiling of polyploid heart nuclei identifies fusion-derived cardiomyocytes in the human heart.

Author

Choudhury S, Sivankutty I, Jung Y, Huang A, Araten S, Kenny C, An Z, Doan R, Foijer F, Matsu E, Rosen I, Marciano J, Jain A, Sun L, Hilal N, Lee E, Walsh C, and Chen M

Abstract

Understanding the mechanisms of polyploidization in cardiomyocytes is crucial for advancing strategies to stimulate myocardial regeneration. Although endoreplication has long been considered the primary source of polyploid human cardiomyocytes, recent animal work suggests the potential for cardiomyocyte fusion. Moreover, the effects of polyploidization on the genomic-transcriptomic repertoire of human cardiomyocytes have not been studied previously. We applied single-nuclei whole genome sequencing, single nuclei RNA sequencing, and multiome ATAC + gene expression (from the same nuclei) techniques to nuclei isolated from 11 healthy hearts. Utilizing post-zygotic non-inherited somatic mutations occurring during development as "endogenous barcodes," to reconstruct lineage relationships of polyploid cardiomyocytes. Of 482 cardiomyocytes from multiple healthy donor hearts 75.7% can be sorted into several developmental clades marked by one or more somatic single-nucleotide variants (SNVs). At least ~10% of tetraploid cardiomyocytes contain cells from distinct clades, indicating fusion of lineally distinct cells, whereas 60% of higher-ploidy cardiomyocytes contain fused cells from distinct clades. Combined snRNA-seq and snATAC-seq revealed transcriptome and chromatin landscapes of polyploid cardiomyocytes distinct from diploid cardiomyocytes, and show some higher-ploidy cardiomyocytes with transcriptional signatures suggesting fusion between cardiomyocytes and endothelial and fibroblast cells. These observations provide the first evidence for cell and nuclear fusion of human cardiomyocytes, raising the possibility that cell fusion may contribute to developing or maintaining polyploid cardiomyocytes in the human heart., Competing Interests: Competing interest declaration: The authors declare that they have no competing interests.

Published

2024

49. Cell-type-specific effects of autism-associated chromosome 15q11.2-13.1 duplications in human brain.

Author

Dias C, Mo A, Cai C, Sun L, Cabral K, Brownstein CA, Rockowitz S, and Walsh CA

Abstract

Recurrent copy number variation represents one of the most well-established genetic drivers in neurodevelopmental disorders, including autism spectrum disorder (ASD). Duplication of 15q11.2-13.1 (dup15q) is a well-described neurodevelopmental syndrome that increases the risk of ASD by over 40-fold. However, the effects of this duplication on gene expression and chromatin accessibility in specific cell types in the human brain remain unknown. To identify the cell-type-specific transcriptional and epigenetic effects of dup15q in the human frontal cortex we conducted single-nucleus RNA-sequencing and multi-omic sequencing on dup15q cases (n=6) as well as non-dup15q ASD (n=7) and neurotypical controls (n=7). Cell-type-specific differential expression analysis identified significantly regulated genes, critical biological pathways, and differentially accessible genomic regions. Although there was overall increased gene expression across the duplicated genomic region, cellular identity represented an important factor mediating gene expression changes. Neuronal subtypes, showed greater upregulation of gene expression across a critical region within the duplication as compared to other cell types. Genes within the duplicated region that had high baseline expression in control individuals showed only modest changes in dup15q, regardless of cell type. Of note, dup15q and ASD had largely distinct signatures of chromatin accessibility, but shared the majority of transcriptional regulatory motifs, suggesting convergent biological pathways. However, the transcriptional binding factor motifs implicated in each condition implicated distinct biological mechanisms; neuronal JUN/FOS networks in ASD vs. an inflammatory transcriptional network in dup15q microglia. This work provides a cell-type-specific analysis of how dup15q changes gene expression and chromatin accessibility in the human brain and finds evidence of marked cell-type-specific effects of this genetic driver. These findings have implications for guiding therapeutic development in dup15q syndrome, as well as understanding the functional effects CNVs more broadly in neurodevelopmental disorders., Competing Interests: Competing interests: Authors have no competing interests to disclose.

Published

2024

50. BRN1/2 Function in Neocortical Size Determination and Microcephaly.

Author

Barão S, Xu Y, Llongueras JP, Vistein R, Goff L, Nielsen K, Bae BI, Smith RS, Walsh CA, Stein-O'Brien G, and Müller U

Abstract

The mammalian neocortex differs vastly in size and complexity between mammalian species, yet the mechanisms that lead to an increase in brain size during evolution are not known. We show here that two transcription factors coordinate gene expression programs in progenitor cells of the neocortex to regulate their proliferative capacity and neuronal output in order to determine brain size. Comparative studies in mice, ferrets and macaques demonstrate an evolutionary conserved function for these transcription factors to regulate progenitor behaviors across the mammalian clade. Strikingly, the two transcriptional regulators control the expression of large numbers of genes linked to microcephaly suggesting that transcriptional deregulation as an important determinant of the molecular pathogenesis of microcephaly, which is consistent with the finding that genetic manipulation of the two transcription factors leads to severe microcephaly.

Published

2024