Digital Commons Network^™

Inhibition Of Mitochondrial Complex I Reverses Notch1-Driven Metabolic Reprogramming In T-Cell Acute Lymphoblastic Leukemia., Natalia Baran, Alessia Lodi, Yogesh Dhungana, Shelley Herbrich, Meghan Collins, Shannon Sweeney, Renu Pandey, Anna Skwarska, Shraddha Patel, Mathieu Tremblay, Vinitha Mary Kuruvilla, Antonio Cavazos, Mecit Kaplan, Marc O Warmoes, Diogo Troggian Veiga, Ken Furudate, Shanti Rojas-Sutterin, Andre Haman, Yves Gareau, Anne Marinier, Helen Ma, Karine Harutyunyan, May Daher, Luciana Melo Garcia, Gheath Al-Atrash, Sujan Piya, Vivian Ruvolo, Wentao Yang, Sriram Saravanan Shanmugavelandy, Ningping Feng, Jason Gay, Di Du, Jun J Yang, Fieke W Hoff, Marcin Kaminski, Katarzyna Tomczak, R Eric Davis, Daniel Herranz, Adolfo Ferrando, Elias J Jabbour, M Emilia Di Francesco, David T Teachey, Terzah M Horton, Steven Kornblau, Katayoun Rezvani, Guy Sauvageau, Mihai Gagea, Michael Andreeff, Koichi Takahashi, Joseph R Marszalek, Philip L Lorenzi, Jiyang Yu, Stefano Tiziani, Trang Hoang, Marina Konopleva

Faculty Research 2022

T-cell acute lymphoblastic leukemia (T-ALL) is commonly driven by activating mutations in NOTCH1 that facilitate glutamine oxidation. Here we identify oxidative phosphorylation (OxPhos) as a critical pathway for leukemia cell survival and demonstrate a direct relationship between NOTCH1, elevated OxPhos gene expression, and acquired chemoresistance in pre-leukemic and leukemic models. Disrupting OxPhos with IACS-010759, an inhibitor of mitochondrial complex I, causes potent growth inhibition through induction of metabolic shut-down and redox imbalance in NOTCH1-mutated and less so in NOTCH1-wt T-ALL cells. Mechanistically, inhibition of OxPhos induces a metabolic reprogramming into glutaminolysis. We show that pharmacological blockade of OxPhos combined with …

Translational Approaches To Understanding Resilience To Alzheimer's Disease., Sarah M Neuner, Maria Telpoukhovskaia, Vilas Menon, Kristen M S O'Connell, Timothy J Hohman, Catherine Kaczorowski

Faculty Research 2022

Individuals who maintain cognitive function despite high levels of Alzheimer's disease (AD)-associated pathology are said to be 'resilient' to AD. Identifying mechanisms underlying resilience represents an exciting therapeutic opportunity. Human studies have identified a number of molecular and genetic factors associated with resilience, but the complexity of these cohorts prohibits a complete understanding of which factors are causal or simply correlated with resilience. Genetically and phenotypically diverse mouse models of AD provide new and translationally relevant opportunities to identify and prioritize new resilience mechanisms for further cross-species investigation. This review will discuss insights into resilience gained from both human and …

A Bayesian Model Selection Approach To Mediation Analysis., Wesley L Crouse, Gregory R Keele, Madeleine S Gastonguay, Gary Churchill, William Valdar

Faculty Research 2022

Genetic studies often seek to establish a causal chain of events originating from genetic variation through to molecular and clinical phenotypes. When multiple phenotypes share a common genetic association, one phenotype may act as an intermediate for the genetic effects on the other. Alternatively, the phenotypes may be causally unrelated but share genetic loci. Mediation analysis represents a class of causal inference approaches used to determine which of these scenarios is most plausible. We have developed a general approach to mediation analysis based on Bayesian model selection and have implemented it in an R package, bmediatR. Bayesian model selection provides …

Genome-Wide Transcript And Protein Analysis Highlights The Role Of Protein Homeostasis In The Aging Mouse Heart., Isabela Gerdes Gyuricza, Joel M Chick, Gregory R Keele, Andrew Deighan, Steven C. Munger, Ron Korstanje, Steven P Gygi, Gary Churchill

Faculty Research 2022

Investigation of the molecular mechanisms of aging in the human heart is challenging because of confounding factors, such as diet and medications, as well as limited access to tissues from healthy aging individuals. The laboratory mouse provides an ideal model to study aging in healthy individuals in a controlled environment. However, previous mouse studies have examined only a narrow range of the genetic variation that shapes individual differences during aging. Here, we analyze transcriptome and proteome data from 185 genetically diverse male and female mice at ages 6, 12, and 18 mo to characterize molecular changes that occur in the …

Harmonizing Model Organism Data In The Alliance Of Genome Resources., Alliance Of Genome Resources Consortium, Anna V. Anagnostopoulos, Susan M. Bello, Judith A. Blake, Olin Blodgett, Carol J. Bult, Karen R. Christie, Mary E. Dolan, Paul Hale, James A. Kadin, Monica S. Mcandrews, Howie Motenko, David R. Shaw, Constance M. Smith, Cynthia L. Smith, Monika Tomczuk, Laurens G. Wilming

Faculty Research 2022

The Alliance of Genome Resources (the Alliance) is a combined effort of 7 knowledgebase projects: Saccharomyces Genome Database, WormBase, FlyBase, Mouse Genome Database, the Zebrafish Information Network, Rat Genome Database, and the Gene Ontology Resource. The Alliance seeks to provide several benefits: better service to the various communities served by these projects; a harmonized view of data for all biomedical researchers, bioinformaticians, clinicians, and students; and a more sustainable infrastructure. The Alliance has harmonized cross-organism data to provide useful comparative views of gene function, gene expression, and human disease relevance. The basis of the comparative views is shared calls of …

Prediction Performance Of Linear Models And Gradient Boosting Machine On Complex Phenotypes In Outbred Mice., Bruno C Perez, Marco C A M Bink, Karen L. Svenson, Gary Churchill, Mario P L Calus

Faculty Research 2022

We compared the performance of linear (GBLUP, BayesB, and elastic net) methods to a nonparametric tree-based ensemble (gradient boosting machine) method for genomic prediction of complex traits in mice. The dataset used contained genotypes for 50,112 SNP markers and phenotypes for 835 animals from 6 generations. Traits analyzed were bone mineral density, body weight at 10, 15, and 20 weeks, fat percentage, circulating cholesterol, glucose, insulin, triglycerides, and urine creatinine. The youngest generation was used as a validation subset, and predictions were based on all older generations. Model performance was evaluated by comparing predictions for animals in the validation subset …

Auriculocondylar Syndrome 2 Results From The Dominant-Negative Action Of Plcb4 Variants., Stanley M Kanai, Caleb Heffner, Timothy C Cox, Michael L Cunningham, Francisco A Perez, Aaron M Bauer, Philip Reigan, Cristan Carter, Stephen A. Murray, David E Clouthier

Faculty Research 2022

Auriculocondylar syndrome 2 (ARCND2) is a rare autosomal dominant craniofacial malformation syndrome linked to multiple genetic variants in the coding sequence of phospholipase C β4 (PLCB4). PLCB4 is a direct signaling effector of the endothelin receptor type A (EDNRA)-Gq/11 pathway, which establishes the identity of neural crest cells (NCCs) that form lower jaw and middle ear structures. However, the functional consequences of PLCB4 variants on EDNRA signaling is not known. Here, we show, using multiple signaling reporter assays, that known PLCB4 variants resulting from missense mutations exert a dominant-negative interference over EDNRA signaling. In addition, using CRISPR/Cas9, we find that …

Efficient Targeted Transgenesis Of Large Donor Dna Into Multiple Mouse Genetic Backgrounds Using Bacteriophage Bxb1 Integrase., Benjamin E. Low, Vishnu Hosur, Simon Lesbirel, Michael V. Wiles

Faculty Research 2022

The development of mouse models of human disease and synthetic biology research by targeted transgenesis of large DNA constructs represent a significant genetic engineering hurdle. We developed an efficient, precise, single-copy integration of large transgenes directly into zygotes using multiple mouse genetic backgrounds. We used in vivo Bxb1 mediated recombinase-mediated cassette exchange (RMCE) with a transgene "landing pad" composed of dual heterologous Bxb1 attachment (att) sites in cis, within the Gt(ROSA)26Sor safe harbor locus. RMCE of donor was achieved by microinjection of vector DNA carrying cognate attachment sites flanking the donor transgene with Bxb1-integrase mRNA. This approach achieves perfect vector-free …

Transcriptional Control Of Retinal Ganglion Cell Death After Axonal Injury., Stephanie B Syc-Mazurek, Hongtian Stanley Yang, Olivia J Marola, Gareth R Howell, Richard T Libby

Faculty Research 2022

Injury to the axons of retinal ganglion cells (RGCs) is a key pathological event in glaucomatous neurodegeneration. The transcription factors JUN (the target of the c-Jun N-terminal kinases, JNKs) and DDIT3/CHOP (a mediator of the endoplasmic reticulum stress response) have been shown to control the majority of proapoptotic signaling after mechanical axonal injury in RGCs and in other models of neurodegeneration. The downstream transcriptional networks controlled by JUN and DDIT3, which are critical for RGC death, however, are not well defined. To determine these networks, RNA was isolated from the retinas of wild-type mice and mice deficient in Jun, Ddit3, …

Adult Mouse Fibroblasts Retain Organ-Specific Transcriptomic Identity., Elvira Forte, Mirana Ramialison, Hieu T Nim, Madison Mara, Jacky Y Li, Rachel Cohn, Sandra Daigle, Sarah Boyd, Edouard G Stanley, Andrew G Elefanty, J Travis Hinson, Mauro W Costa, Nadia Rosenthal, Milena B Furtado

Faculty Research 2022

Organ fibroblasts are essential components of homeostatic and diseased tissues. They participate in sculpting the extracellular matrix, sensing the microenvironment, and communicating with other resident cells. Recent studies have revealed transcriptomic heterogeneity among fibroblasts within and between organs. To dissect the basis of interorgan heterogeneity, we compare the gene expression of murine fibroblasts from different tissues (tail, skin, lung, liver, heart, kidney, and gonads) and show that they display distinct positional and organ-specific transcriptome signatures that reflect their embryonic origins. We demonstrate that expression of genes typically attributed to the surrounding parenchyma by fibroblasts is established in embryonic development and …

Functional Replacement Of Myostatin With Gdf-11 In The Germline Of Mice., Se-Jin Lee, Adam Lehar, Renata Rydzik, Daniel W Youngstrom, Shalender Bhasin, Yewei Liu, Emily L Germain-Lee

Faculty Research 2022

BACKGROUND: Myostatin (MSTN) is a transforming growth factor-ß superfamily member that acts as a major regulator of skeletal muscle mass. GDF-11, which is highly related to MSTN, plays multiple roles during embryonic development, including regulating development of the axial skeleton, kidneys, nervous system, and pancreas. As MSTN and GDF-11 share a high degree of amino acid sequence identity, behave virtually identically in cell culture assays, and utilize similar regulatory and signaling components, a critical question is whether their distinct biological functions result from inherent differences in their abilities to interact with specific regulatory and signaling components or whether their distinct …

Mouse Genome Informatics (Mgi): Latest News From Mgd And Gxd., Martin Ringwald, Joel E Richardson, Richard M. Baldarelli, Judith A. Blake, James A. Kadin, Cynthia Smith, Carol J Bult

Faculty Research 2022

The Mouse Genome Informatics (MGI) database system combines multiple expertly curated community data resources into a shared knowledge management ecosystem united by common metadata annotation standards. MGI's mission is to facilitate the use of the mouse as an experimental model for understanding the genetic and genomic basis of human health and disease. MGI is the authoritative source for mouse gene, allele, and strain nomenclature and is the primary source of mouse phenotype annotations, functional annotations, developmental gene expression information, and annotations of mouse models with human diseases. MGI maintains mouse anatomy and phenotype ontologies and contributes to the development of …

Selective Elimination Of Pluripotent Stem Cells By Pikfyve Specific Inhibitors., Arup R Chakraborty, Alex Vassilev, Sushil K Jaiswal, Constandina E O'Connell, John F Ahrens, Barbara S Mallon, Martin Pera, Melvin L Depamphilis

Faculty Research 2022

Inhibition of PIKfyve phosphoinositide kinase selectively kills autophagy-dependent cancer cells by disrupting lysosome homeostasis. Here, we show that PIKfyve inhibitors can also selectively eliminate pluripotent embryonal carcinoma cells (ECCs), embryonic stem cells, and induced pluripotent stem cells under conditions where differentiated cells remain viable. PIKfyve inhibitors prevented lysosome fission, induced autophagosome accumulation, and reduced cell proliferation in both pluripotent and differentiated cells, but they induced death only in pluripotent cells. The ability of PIKfyve inhibitors to distinguish between pluripotent and differentiated cells was confirmed with xenografts derived from ECCs. Pretreatment of ECCs with the PIKfyve specific inhibitor WX8 suppressed their …

Consensus Recommendation For Mouse Models Of Ocular Hypertension To Study Aqueous Humor Outflow And Its Mechanisms., Colleen M Mcdowell, Krishnakumar Kizhatil, Michael H Elliott, Darryl R Overby, Joseph Van Batenburg-Sherwood, J Cameron Millar, Markus H Kuehn, Gulab Zode, Ted S Acott, Michael G Anderson, Sanjoy K Bhattacharya, Jacques A Bertrand, Terete Borras, Diane E Bovenkamp, Lin Cheng, John Danias, Michael Lucio De Ieso, Yiqin Du, Jennifer A Faralli, Rudolf Fuchshofer, Preethi S Ganapathy, Haiyan Gong, Samuel Herberg, Humberto Hernandez, Peter Humphries, Simon W M John, Paul L Kaufman, Kate E Keller, Mary J Kelley, Ruth A Kelly, David Krizaj, Ajay Kumar, Brian C Leonard, Raquel L Lieberman, Paloma Liton, Yutao Liu, Katy C Liu, Navita N Lopez, Weiming Mao, Timur Mavlyutov, Fiona Mcdonnell, Gillian J Mclellan, Philip Mzyk, Andrews Nartey, Louis R Pasquale, Gaurang C Patel, Padmanabhan P Pattabiraman, Donna M Peters, Vijaykrishna Raghunathan, Ponugoti Vasantha Rao, Naga Rayana, Urmimala Raychaudhuri, Ester Reina-Torres, Ruiyi Ren, Douglas Rhee, Uttio Roy Chowdhury, John R Samples, E Griffen Samples, Najam Sharif, Joel S Schuman, Val C Sheffield, Cooper H Stevenson, Avinash Soundararajan, Preeti Subramanian, Chenna Kesavulu Sugali, Yang Sun, Carol B Toris, Karen Y Torrejon, Amir Vahabikashi, Janice A Vranka, Ting Wang, Colin E Willoughby, Chen Xin, Hongmin Yun, Hao F Zhang, Michael P Fautsch, Ernst R Tamm, Abbot F Clark, C Ross Ethier, W Daniel Stamer

Faculty Research 2022

Due to their similarities in anatomy, physiology, and pharmacology to humans, mice are a valuable model system to study the generation and mechanisms modulating conventional outflow resistance and thus intraocular pressure. In addition, mouse models are critical for understanding the complex nature of conventional outflow homeostasis and dysfunction that results in ocular hypertension. In this review, we describe a set of minimum acceptable standards for developing, characterizing, and utilizing mouse models of open-angle ocular hypertension. We expect that this set of standard practices will increase scientific rigor when using mouse models and will better enable researchers to replicate and build …

Genetic Interaction Between Mfrp And Adipor1 Mutations Affect Retinal Disease Phenotypes, Navdeep Gogna, Sonia Weatherly, Fuxin Zhao, Gayle B. Collin, Jai Pinkney, Lisa Stone, Juergen K. Naggert, Gregory W. Carter, Patsy M. Nishina

Faculty Research 2022

Adipor1^tm1Dgen and Mfrp^rd6 mutant mice share similar eye disease characteristics. Previously, studies established a functional relationship of ADIPOR1 and MFRP proteins in maintaining retinal lipidome homeostasis and visual function. However, the independent and/or interactive contribution of both genes to similar disease phenotypes, including fundus spots, decreased axial length, and photoreceptor degeneration has yet to be examined. We performed a gene-interaction study where homozygous Adipor1^tm1Dgen and Mfrp^rd6 mice were bred together and the resulting doubly heterozygous F1 offspring were intercrossed to produce 210 F2 progeny. Four-month-old mice from all nine genotypic combinations obtained in the F2 generation …

Common Genetic Variants Contribute To Risk Of Transposition Of The Great Arteries., Doris Škorić-Milosavljević, Rafik Tadros, Fernanda M Bosada, Federico Tessadori, Jan Hendrik Van Weerd, Odilia I Woudstra, Fleur V Y Tjong, Najim Lahrouchi, Fanny Bajolle, Heather J Cordell, A J Agopian, Gillian M Blue, Daniela Q C M Barge-Schaapveld, Marc Gewillig, Christoph Preuss, Elisabeth M Lodder, Phil Barnett, Aho Ilgun, Leander Beekman, Karel Van Duijvenboden, Regina Bokenkamp, Martina Müller-Nurasyid, Hubert W Vliegen, Thelma C Konings, Joost P Van Melle, Arie P J Van Dijk, Roland R J Van Kimmenade, Jolien W Roos-Hesselink, Gertjan T Sieswerda, Folkert Meijboom, Hashim Abdul-Khaliq, Felix Berger, Sven Dittrich, Marc-Phillip Hitz, Julia Moosmann, Frank-Thomas Riede, Stephan Schubert, Pilar Galan, Mark Lathrop, Hans M Munter, Ammar Al-Chalabi, Christopher E Shaw, Pamela J Shaw, Karen E Morrison, Jan H Veldink, Leonard H Van Den Berg, Sylvia Evans, Marcelo A Nobrega, Ivy Aneas, Milena Radivojkov-Blagojević, Thomas Meitinger, Erwin Oechslin, Tapas Mondal, Lynn Bergin, John F Smythe, Luis Altamirano-Diaz, Jane Lougheed, Berto J Bouma, Marie-A Chaix, Jennie Kline, Anne S Bassett, Gregor Andelfinger, Roel L F Van Der Palen, Patrice Bouvagnet, Sally-Ann B Clur, Jeroen Breckpot, Wilhelmina S Kerstjens-Frederikse, David S Winlaw, Ulrike M M Bauer, Seema Mital, Elizabeth Goldmuntz, Bernard Keavney, Damien Bonnet, Barbara J Mulder, Michael W T Tanck, Jeroen Bakkers, Vincent M Christoffels, Cornelis J Boogerd, Alex V Postma, Connie R Bezzina

Faculty Research 2022

RATIONALE: Dextro-transposition of the great arteries (D-TGA) is a severe congenital heart defect which affects approximately 1 in 4,000 live births. While there are several reports of D-TGA patients with rare variants in individual genes, the majority of D-TGA cases remain genetically elusive. Familial recurrence patterns and the observation that most cases with D-TGA are sporadic suggest a polygenic inheritance for the disorder, yet this remains unexplored.

OBJECTIVE: We sought to study the role of common single nucleotide polymorphisms (SNPs) in risk for D-TGA.

METHODS AND RESULTS: We conducted a genome-wide association study in an international set of 1,237 patients …

Stride-Level Analysis Of Mouse Open Field Behavior Using Deep-Learning-Based Pose Estimation., Keith Sheppard, Justin Gardin, Gautam S Sabnis, Asaf Peer, Megan Darrell, Sean P Deats, Brian Q Geuther, Cathleen Lutz, Vivek Kumar

Faculty Research 2022

Gait and posture are often perturbed in many neurological, neuromuscular, and neuropsychiatric conditions. Rodents provide a tractable model for elucidating disease mechanisms and interventions. Here, we develop a neural-network-based assay that adopts the commonly used open field apparatus for mouse gait and posture analysis. We quantitate both with high precision across 62 strains of mice. We characterize four mutants with known gait deficits and demonstrate that multiple autism spectrum disorder (ASD) models show gait and posture deficits, implying this is a general feature of ASD. Mouse gait and posture measures are highly heritable and fall into three distinct classes. We …

An Artifact In Intracellular Cytokine Staining For Studying T Cell Responses And Its Alleviation., Zheng Gong, Qing Li, Jiayuan Shi, Guangwen Ren

Faculty Research 2022

Intracellular cytokine staining (ICS) is a widely employed ex vivo method for quantitative determination of the activation status of immune cells, most often applied to T cells. ICS test samples are commonly prepared from animal or human tissues as unpurified cell mixtures, and cell-specific cytokine signals are subsequently discriminated by gating strategies using flow cytometry. Here, we show that when ICS samples contain Ly6G⁺ neutrophils, neutrophils are ex vivo activated by an ICS reagent - phorbol myristate acetate (PMA) - which leads to hydrogen peroxide (H₂O₂) release and death of cytokine-expressing T cells. This artifact …

Independent Dsg4 Frameshift Variants In Cats With Hair Shaft Dystrophy., Sarah Kiener, Ana Rostaher, Silvia Rüfenacht, Vidhya Jagannathan, John P Sundberg, Monika Welle, Tosso Leeb

Faculty Research 2022

Investigations of hereditary phenotypes in spontaneous mutants may help to better understand the physiological functions of the altered genes. We investigated two unrelated domestic shorthair cats with bulbous swellings of the hair shafts. The clinical, histopathological, and ultrastructural features were similar to those in mice with lanceolate hair phenotype caused by loss-of-function variants in Dsg4 encoding desmoglein 4. We sequenced the genomes from both affected cats and compared the data of each affected cat to 61 control genomes. A search for private homozygous variants in the DSG4 candidate gene revealed independent frameshift variants in each case, c.76del or p.Ile26fsLeu*4 in …

The Th1/Tfh-Like Biased Responses Elicited By The Rasp-1 Innate Adjuvant Are Dependent On Trif And Type I Ifn Receptor Pathways., Parakkal Jovvian George, Radu Marches, Djamel Nehar-Belaid, Jacques Banchereau, Sara Lustigman

Faculty Research 2022

No abstract provided.

Epidermal Growth Factor Receptor Inhibition Is Protective In Hyperoxia-Induced Lung Injury., Zachary M Harris, Ying Sun, John Joerns, Brian Clark, Buqu Hu, Asawari Korde, Lokesh Sharma, Hyeon Jun Shin, Edward P Manning, Lindsey Placek, Derya Unutmaz, Gail Stanley, Hyung Chun, Maor Sauler, Govindarajan Rajagopalan, Xuchen Zhang, Min-Jong Kang, Jonathan L Koff

Faculty Research 2022

AIMS: Studies have linked severe hyperoxia, or prolonged exposure to very high oxygen levels, with worse clinical outcomes. This study investigated the role of epidermal growth factor receptor (EGFR) in hyperoxia-induced lung injury at very high oxygen levels (>95%).

RESULTS: Effects of severe hyperoxia (100% oxygen) were studied in mice with genetically inhibited EGFR and wild-type littermates. Despite the established role of EGFR in lung repair, EGFR inhibition led to improved survival and reduced acute lung injury, which prompted an investigation into this protective mechanism. Endothelial EGFR genetic knockout did not confer protection. EGFR inhibition led to decreased levels …

Witch Nails (Krt90whnl): A Spontaneous Mouse Mutation Affecting Nail Growth And Development., John P Sundberg, Hannah Galantino-Homer, Heather Fairfield, Patricia F. Ward-Bailey, Belinda S. Harris, Melissa L. Berry, C Herbert Pratt, Nicholas E Gott, Lesley S Bechtold, Pauline R Kaplan, Blythe P Durbin-Johnson, David M Rocke, Robert H Rice

Faculty Research 2022

Numerous single gene mutations identified in humans and mice result in nail deformities with many similarities between the species. A spontaneous, autosomal, recessive mutation called witch nails (whnl) is described here where the distal nail matrix and nail bed undergo degenerative changes resulting in formation of an abnormal nail plate causing mice to develop long, curved nails. This mutation arose spontaneously in a colony of MRL/MpJ-Faslpr/J at The Jackson Laboratory. Homozygous mutant mice are recognizable by 8 weeks of age by their long, curved nails. The whnl mutation, mapped on Chromosome 15, is due to a 7-bp insertion identified in …