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4. Thousands of induced germline mutations affecting immune cells identified by automated meiotic mapping coupled with machine learning

Author

Xu, Darui, Lyon, Stephen, Bu, Chun Hui, Hildebrand, Sara, Choi, Jin Huk, Zhong, Xue, Liu, Aijie, Turer, Emre E., Zhang, Zhao, Russell, Jamie, Ludwig, Sara, Mahrt, Elena, Nair-Gill, Evan, Shi, Hexin, Wang, Ying, Zhang, Duanwu, Yue, Tao, Wang, Kuan-wen, SoRelle, Jeffrey A., Su, Lijing, Misawa, Takuma, McAlpine, William, Sun, Lei, Wang, Jianhui, Zhan, Xiaoming, Choi, Mihwa, Farokhnia, Roxana, Sakla, Andrew, Schneider, Sara, Coco, Hannah, Coolbaugh, Gabrielle, Hayse, Braden, Mazal, Sara, Medler, Dawson, Nguyen, Brandon, Rodriguez, Edward, Wadley, Andrew, Tang, Miao, Li, Xiaohong, Anderton, Priscilla, Keller, Katie, Press, Amanda, Scott, Lindsay, Quan, Jiexia, Cooper, Sydney, Collie, Tiffany, Qin, Baifang, Cardin, Jennifer, Simpson, Rochelle, Tadesse, Meron, Sun, Qihua, Wise, Carol A., Rios, Jonathan J., Moresco, Eva Marie Y., and Beutler, Bruce

Published
2021

5. Obesity caused by an OVOL2 mutation reveals dual roles of OVOL2 in promoting thermogenesis and limiting white adipogenesis

Author

Zhang, Zhao, Jiang, Yiao, Su, Lijing, Ludwig, Sara, Zhang, Xuechun, Tang, Miao, Li, Xiaohong, Anderton, Priscilla, Zhan, Xiaoming, Choi, Mihwa, Russell, Jamie, Bu, Chun-Hui, Lyon, Stephen, Xu, Darui, Hildebrand, Sara, Scott, Lindsay, Quan, Jiexia, Simpson, Rochelle, Sun, Qihua, Qin, Baifang, Collie, Tiffany, Tadesse, Meron, Moresco, Eva Marie Y., and Beutler, Bruce

Published
2022
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15. Essential role of MFSD1-GLMP-GIMAP5 in lymphocyte survival and liver homeostasis.

Author

Xue Zhong, Moresco, James J., Diedrich, Jolene K., Pinto, Antonio M., SoRelle, Jeffrey A., Jianhui Wang, Keller, Katie, Ludwig, Sara, Moresco, Eva Marie Y., Beutler, Bruce, and Jin Huk Choi

Subjects
EXTRAMEDULLARY hematopoiesis, CARRIER proteins, HOMEOSTASIS, LIVER, LYMPHOCYTES
Abstract

We detected ENU-induced alleles of Mfsd1 (encoding the major facilitator superfamily domain containing 1 protein) that caused lymphopenia, splenomegaly, progressive liver pathology, and extramedullary hematopoiesis (EMH). MFSD1 is a lysosomal membrane-bound solute carrier protein with no previously described function in immunity. By proteomic analysis, we identified association between MFSD1 and both GLMP (glycosylated lysosomal membrane protein) and GIMAP5 (GTPase of immunity-associated protein 5). Germline knockout alleles of Mfsd1, Glmp, and Gimap5 each caused lymphopenia, liver pathology, EMH, and lipid deposition in the bone marrow and liver. We found that the interactions of MFSD1 and GLMP with GIMAP5 are essential to maintain normal GIMAP5 expression, which in turn is critical to support lymphocyte development and liver homeostasis that suppresses EMH. These findings identify the protein complex MFSD1-GLMP-GIMAP5 operating in hematopoietic and extrahematopoietic tissues to regulate immunity and liver homeostasis. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Germline Saturation Mutagenesis Induces Skeletal Phenotypes in Mice.

Author

Rios, Jonathan J, Denton, Kristin, Russell, Jamie, Kozlitina, Julia, Ferreira, Carlos R, Lewanda, Amy F, Mayfield, Joshua E, Moresco, Eva, Ludwig, Sara, Tang, Miao, Li, Xiaohong, Lyon, Stephen, Khanshour, Anas, Paria, Nandina, Khalid, Aysha, Li, Yang, Xie, Xudong, Feng, Jian Q, Xu, Qian, and Lu, Yongbo

Abstract

Proper embryonic and postnatal skeletal development require coordination of myriad complex molecular mechanisms. Disruption of these processes, through genetic mutation, contributes to variation in skeletal development. We developed a high‐throughput N‐ethyl‐N‐nitrosourea (ENU)‐induced saturation mutagenesis skeletal screening approach in mice to identify genes required for proper skeletal development. Here, we report initial results from live‐animal X‐ray and dual‐energy X‐ray absorptiometry (DXA) imaging of 27,607 G3 mice from 806 pedigrees, testing the effects of 32,198 coding/splicing mutations in 13,020 genes. A total of 39.7% of all autosomal genes were severely damaged or destroyed by mutations tested twice or more in the homozygous state. Results from our study demonstrate the feasibility of in vivo mutagenesis to identify mouse models of skeletal disease. Furthermore, our study demonstrates how ENU mutagenesis provides opportunities to create and characterize putative hypomorphic mutations in developmentally essential genes. Finally, we present a viable mouse model and case report of recessive skeletal disease caused by mutations in FAM20B. Results from this study, including engineered mouse models, are made publicly available via the online Mutagenetix database. © 2021 American Society for Bone and Mineral Research (ASBMR). [ABSTRACT FROM AUTHOR]

Published
2021
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19. Thousands of induced germline mutations affecting immune cells identified by automated meiotic mapping coupled with machine learning.

Author

Darui Xu, Lyon, Stephen, Chun Hui Bu, Hildebrand, Sara, Jin Huk Choi, Xue Zhong, Liu, Aijie, Turer, Emre E., Zhao Zhang, Russell, Jamie, Ludwig, Sara, Mahrt, Elena, Nair-Gill, Evan, Hexin Shi, Ying Wang, Duanwu Zhang, Tao Yue, Kuan-wen Wang, SoRelle, Jeffrey A., and Lijing Su

Subjects
MACHINE learning, GERM cells, PHENOTYPES, GENETIC counseling, MICE, GENE mapping, CURCUMIN, COMMERCIAL products
Abstract

Forward genetic studies use meiotic mapping to adduce evidence that a particular mutation, normally induced by a germline mutagen, is causative of a particular phenotype. Particularly in small pedigrees, cosegregation of multiple mutations, occasional unawareness of mutations, and paucity of homozygotes may lead to erroneous declarations of cause and effect. We sought to improve the identification of mutations causing immune phenotypes in mice by creating Candidate Explorer (CE), a machine-learning software program that integrates 67 features of genetic mapping data into a single numeric score, mathematically convertible to the probability of verification of any putative mutation-phenotype association. At this time, CE has evaluated putative mutation-phenotype associations arising from screening damagingmutations in ~55%of mouse genes for effects on flow cytometry measurements of immune cells in the blood. CE has therefore identified more than half of genes within which mutations can be causative of flow cytometric phenovariation in Mus musculus. The majority of these genes were not previously known to support immune function or homeostasis. Mouse geneticists will find CE data informative in identifying causative mutations within quantitative trait loci, while clinical geneticists may use CE to help connect causative variants with rare heritable diseases of immunity, even in the absence of linkage information. CE displays integrated mutation, phenotype, and linkage data, and is freely available for query online. [ABSTRACT FROM AUTHOR]

Published
2021
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20. Dominant atopy risk mutations identified by mouse forward genetic analysis.

Author

SoRelle, Jeffrey A., Chen, Zhe, Wang, Jianhui, Yue, Tao, Choi, Jin Huk, Wang, Kuan‐wen, Zhong, Xue, Hildebrand, Sara, Russell, Jamie, Scott, Lindsay, Xu, Darui, Zhan, Xiaowei, Bu, Chun Hui, Wang, Tao, Choi, Mihwa, Tang, Miao, Ludwig, Sara, Zhan, Xiaoming, Li, Xiaohong, and Moresco, Eva Marie Y.

Subjects
ATOPY, GENES, GENETIC testing, GENETIC mutation, PHENOTYPES, IMMUNOGLOBULIN class switching, HUMAN genes, FILAGGRIN
Abstract

Background: Atopy, the overall tendency to become sensitized to an allergen, is heritable but seldom ascribed to mutations within specific genes. Atopic individuals develop abnormally elevated IgE responses to immunization with potential allergens. To gain insight into the genetic causes of atopy, we carried out a forward genetic screen for atopy in mice. Methods: We screened mice carrying homozygous and heterozygous N‐ethyl‐N‐nitrosourea (ENU)–induced germline mutations for aberrant antigen‐specific IgE and IgG1 production in response to immunization with the model allergen papain. Candidate genes were validated by independent gene mutation. Results: Of 31 candidate genes selected for investigation, the effects of mutations in 23 genes on papain‐specific IgE or IgG1 were verified. Among the 20 verified genes influencing the IgE response, eight were necessary for the response, while 12 repressed IgE. Nine genes were not previously implicated in the IgE response. Fifteen genes encoded proteins contributing to IgE class switch recombination or B‐cell receptor signaling. The precise roles of the five remaining genes (Flcn, Map1lc3b, Me2, Prkd2, and Scarb2) remain to be determined. Loss‐of‐function mutations in nine of the 12 genes limiting the IgE response were dominant or semi‐dominant for the IgE phenotype but did not cause immunodeficiency in the heterozygous state. Using damaging allele frequencies for the corresponding human genes and in silico simulations (Monte Carlo) of undiscovered atopy mutations, we estimated the percentage of humans with heterozygous atopy risk mutations. Conclusions: Up to 37% of individuals may be heterozygous carriers for at least one dominant atopy risk mutation. [ABSTRACT FROM AUTHOR]

Published
2021
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21. KDM5A mutations identified in autism spectrum disorder using forward genetics.

Author

Hayek, Lauretta El, Tuncay, Islam Oguz, Nijem, Nadine, Russell, Jamie, Ludwig, Sara, Kaur, Kiran, Xiaohong Li, Anderton, Priscilla, Tang, Miao, Gerard, Amanda, Heinze, Anja, Zacher, Pia, Alsaif, Hessa S., Rad, Aboulfazl, Abbaszadegan, Kazem Hassanpour Mohammad Reza, Washington, Camerun, DuPont, Barbara R., Louie, Raymond J., Couse, Madeline, and Faden, Maha

Published
2020
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22. Forward genetic analysis using OCT screening identifies Sfxn3 mutations leading to progressive outer retinal degeneration in mice.

Author

Bo Chen, Aredo, Bogale, Yi Ding, Xin Zhong, Yuanfei Zhu, Zhao, Cynthia X., Kumar, Ashwani, Chao Xing, Gautron, Laurent, Lyon, Stephen, Russell, Jamie, Xiaohong Li, Miao Tang, Anderton, Priscilla, Ludwig, Sara, Moresco, Eva Marie Y., Beutler, Bruce, and Ufret-Vincenty, Rafael L.

Subjects
RETINAL degeneration, RETINAL ganglion cells, OPTICAL coherence tomography, BIPOLAR cells, RHODOPSIN
Abstract

Retinal disease and loss of vision can result from any disruption of the complex pathways controlling retinal development and homeostasis. Forward genetics provides an excellent tool to find, in an unbiased manner, genes that are essential to these processes. Using N-ethyl-N-nitrosourea mutagenesis in mice in combination with a screening protocol using optical coherence tomography (OCT) and automated meiotic mapping, we identified 11 mutations presumably causative of retinal phenotypes in genes previously known to be essential for retinal integrity. In addition, we found multiple statistically significant gene-phenotype associations that have not been reported previously and decided to target one of these genes, Sfxn3 (encoding sideroflexin-3), using CRISPR/Cas9 technology. We demonstrate, using OCT, light microscopy, and electroretinography, that two Sfxn3-/- mouse lines developed progressive and severe outer retinal degeneration. Electron microscopy showed thinning of the retinal pigment epithelium and disruption of the external limiting membrane. Using single-cell RNA sequencing of retinal cells isolated from C57BL/6J mice, we demonstrate that Sfxn3 is expressed in several bipolar cell subtypes, retinal ganglion cells, and some amacrine cell subtypes but not significantly in Müller cells or photoreceptors. In situ hybridization confirmed these findings. Furthermore, pathway analysis suggests that Sfxn3 may be associated with synaptic homeostasis. Importantly, electron microscopy analysis showed disruption of synapses and synaptic ribbons in the outer plexiform layer of Sfxn3-/- mice. Our work describes a previously unknown requirement for Sfxn3 in retinal function. [ABSTRACT FROM AUTHOR]

Published
2020
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23. Essential requirement for nicastrin in marginal zone and B-1 B cell development.

Author

Jin Huk Choi, Jonghee Han, Theodoropoulos, Panayotis C., Xue Zhong, Jianhui Wang, Medler, Dawson, Ludwig, Sara, Xiaoming Zhan, Xiaohong Li, Miao Tang, Gallagher, Thomas, Gang Yu, and Beutler, Bruce

Subjects
B cells, AMYLOID beta-protein precursor, HIDRADENITIS suppurativa, ANTIBODY formation, NOTCH proteins
Abstract

γ-secretase is an intramembrane protease complex that catalyzes the proteolytic cleavage of amyloid precursor protein and Notch. Impaired γ-secretase function is associated with the development of Alzheimer's disease and familial acne inversa in humans. In a forward genetic screen of mice with N-ethyl-N-nitrosourea-induced mutations for defects in adaptive immunity, we identified animals within a single pedigree exhibiting both hypopigmentation of the fur and diminished T cell-independent (TI) antibody responses. The causative mutation was in Ncstn, an essential gene encoding the protein nicastrin (NCSTN), a member of the γ-secretase complex that functions to recruit substrates for proteolysis. The missense mutation severely limits the glycosylation of NCSTN to its mature form and impairs the integrity of the γ-secretase complex as well as its catalytic activity toward its substrate Notch, a critical regulator of B cell and T cell development. Strikingly, however, this missense mutation affects B cell development but not thymocyte or T cell development. The Ncstn allele uncovered in these studies reveals an essential requirement for NCSTN during the type 2 transitionalmarginal zone precursor stage and peritoneal B-1 B cell development, the TI antibody response, fur pigmentation, and intestinal homeostasis in mice. [ABSTRACT FROM AUTHOR]

Published
2020
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24. Mutual inhibition between Prkd2 and Bcl6 controls T follicular helper cell differentiation.

Author

Misawa, Takuma, SoRelle, Jeffrey A., Choi, Jin Huk, Yue, Tao, Wang, Kuan-wen, McAlpine, William, Wang, Jianhui, Liu, Aijie, Tabeta, Koichi, Turer, Emre E., Evers, Bret, Nair-Gill, Evan, Poddar, Subhajit, Su, Lijing, Ou, Feiya, Yu, Liyang, Russell, Jamie, Ludwig, Sara, Zhan, Xiaoming, and Hildebrand, Sara

Abstract

Kinase-regulated TFH differentiation: The Bcl6 transcription factor plays a key role in directing the differentiation of T follicular helper cells (TFH) that support B cell antibody production and germinal center (GC) formation. Misawa et al. used a genetic screen in mice to identify a mutation in protein kinase D2 (Prkd2), a serine/threonine kinase, which resulted in enhanced basal and post-immunization levels of serum IgE. Mice with the Prkd2 mutation and Prkd2-deficient mice developed hypergammaglobulinemia and anti-DNA antibodies due to a T cell–intrinsic defect causing TFH expansion and an increase in GCs. Phosphorylation of Bcl6 by Prkd2 inhibited Bcl6 nuclear translocation and TFH differentiation. These findings provide fresh insight into the complex regulatory pathways controlling TFH differentiation by naïve T cells activated through their T cell receptor. T follicular helper cells (TFH) participate in germinal center (GC) development and are necessary for B cell production of high-affinity, isotype-switched antibodies. In a forward genetic screen, we identified a missense mutation in Prkd2, encoding the serine/threonine kinase protein kinase D2, which caused elevated titers of immunoglobulin E (IgE) in the serum. Subsequent analysis of serum antibodies in mice with a targeted null mutation of Prkd2 demonstrated polyclonal hypergammaglobulinemia of IgE, IgG1, and IgA isotypes, which was exacerbated by the T cell–dependent humoral response to immunization. GC formation and GC B cells were increased in Prkd2−/− spleens. These effects were the result of excessive cell-autonomous TFH development caused by unrestricted Bcl6 nuclear translocation in Prkd2−/− CD4+ T cells. Prkd2 directly binds to Bcl6, and Prkd2-dependent phosphorylation of Bcl6 is necessary to constrain Bcl6 to the cytoplasm, thereby limiting TFH development. In response to immunization, Bcl6 repressed Prkd2 expression in CD4+ T cells, thereby committing them to TFH development. Thus, Prkd2 and Bcl6 form a mutually inhibitory positive feedback loop that controls the stable transition from naïve CD4+ T cells to TFH during the adaptive immune response. [ABSTRACT FROM AUTHOR]

Published
2020
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25. Adjuvant effect of the novel TLR1/TLR2 agonist Diprovocim synergizes with anti-PD-L1 to eliminate melanoma in mice.

Author

Ying Wang, Lijing Su, Hexin Shi, Kuan-wen Wang, Xiaoming Zhan, Aijie Liu, Jianhui Wang, Xiaohong Li, Miao Tang, Ludwig, Sara, Hildebrand, Sara, Moresco, Eva Marie Y., Hong Zhang, Beutler, Bruce, Morin, Matthew D., Jones, Brian T., Yuto Mifune, Boger, Dale L., Kejin Zhou, and Siegwart, Daniel J.

Subjects
ADJUVANT treatment of cancer, TOLL-like receptors, MELANOMA, DENDRITIC cells, CANCER immunotherapy, GENETICS
Abstract

Successful cancer immunotherapy entails activation of innate immune receptors to promote dendritic cell (DC) maturation, antigen presentation, up-regulation of costimulatory molecules, and cytokine secretion, leading to activation of tumor antigen-specific cytotoxic T lymphocytes (CTLs). Here we screened a synthetic library of 100,000 compounds for innate immune activators using TNF production by THP-1 cells as a readout. We identified and optimized a potent human and mouse Toll-like receptor (TLR)1/TLR2 agonist, Diprovocim, which exhibited an EC50 of 110 pM in human THP-1 cells and 1.3 nM in primary mouse peritoneal macrophages. In mice, Diprovocim-adjuvanted ovalbumin immunization promoted antigen-specific humoral and CTL responses and synergized with anti-PD-L1 treatment to inhibit tumor growth, generating long-term antitumor memory, curing or prolonging survival of mice engrafted with the murine melanoma B16-OVA. Diprovocim induced greater frequencies of tumor-infiltrating leukocytes than alum, of which CD8 T cells were necessary for the antitumor effect of immunization plus anti-PD-L1 treatment. [ABSTRACT FROM AUTHOR]

Published
2018
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26. Probability of phenotypically detectable protein damage by ENU-induced mutations in the Mutagenetix database.

Author

Tao Wang, Chun Hui Bu, Hildebrand, Sara, Gaoxiang Jia, Siggs, Owen M., Lyon, Stephen, Pratt, David, Scott, Lindsay, Russell, Jamie, Ludwig, Sara, Murray, Anne R., Moresco, Eva Marie Y., and Beutler, Bruce

Abstract

Computational inference of mutation effects is necessary for genetic studies in which many mutations must be considered as etiologic candidates. Programs such as PolyPhen-2 predict the relative severity of damage caused by missense mutations, but not the actual probability that a mutation will reduce/eliminate protein function. Based on genotype and phenotype data for 116,330 ENU-induced mutations in the Mutagenetix database, we calculate that putative null mutations, and PolyPhen-2-classified “probably damaging”, “possibly damaging”, or “probably benign” mutations have, respectively, 61%, 17%, 9.8%, and 4.5% probabilities of causing phenotypically detectable damage in the homozygous state. We use these probabilities in the estimation of genome saturation and the probability that individual proteins have been adequately tested for function in specific genetic screens. We estimate the proportion of essential autosomal genes in Mus musculus (C57BL/6J) and show that viable mutations in essential genes are more likely to induce phenotype than mutations in non-essential genes. [ABSTRACT FROM AUTHOR]

Published
2018
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27. Parasite Mitogen-Activated Protein Kinases as Drug Discovery Targets to Treat Human Protozoan Pathogens

Author

Brumlik, Michael J., Pandeswara, Srilakshmi, Ludwig, Sara M., Murthy, Kruthi, and Curiel, Tyler J.

Subjects
Article Subject, parasitic diseases
Abstract

Protozoan pathogens are a highly diverse group of unicellular organisms, several of which are significant human pathogens. One group of protozoan pathogens includes obligate intracellular parasites such as agents of malaria, leishmaniasis, babesiosis, and toxoplasmosis. The other group includes extracellular pathogens such as agents of giardiasis and amebiasis. An unfortunate unifying theme for most human protozoan pathogens is that highly effective treatments for them are generally lacking. We will review targeting protozoan mitogen-activated protein kinases (MAPKs) as a novel drug discovery approach towards developing better therapies, focusing on Plasmodia, Leishmania, and Toxoplasma, about which the most is known.

Published
2011
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28. LMBR1L regulates lymphopoiesis through Wnt/β-catenin signaling.

Author

Choi, Jin Huk, Zhong, Xue, McAlpine, William, Liao, Tzu-Chieh, Zhang, Duanwu, Fang, Beibei, Russell, Jamie, Ludwig, Sara, Nair-Gill, Evan, Zhang, Zhao, Wang, Kuan-wen, Misawa, Takuma, Zhan, Xiaoming, Choi, Mihwa, Wang, Tao, Li, Xiaohong, Tang, Miao, Sun, Qihua, Yu, Liyang, and Murray, Anne R.

Published
2019
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29. The Hsp90 Cochaperone p23 Is Essential for Perinatal Survival.

Author

Grad, Iwona, McKee, Thomas A., Ludwig, Sara M., Hoyle, Gary W., Ruiz, Patricia, Wurst, Wolfgang, Floss, Thomas, Miller III, Charles A., and Picard, Didier

Subjects
MOLECULAR chaperones, BACTERIA, YEAST, GENOMICS, PROTEINS
Abstract

The functions of molecular chaperones have been extensively investigated biochemically in vitro and genetically in bacteria and yeast. We have embarked on a functional genomic analysis of the Hsp90 chaperone machine in the mouse by disrupting the p23 gene using a gene trap approach. p23 is an Hsp90 cochaperone that is thought to stabilize Hsp90-substrate complexes and, independently, to act as the cytosolic prostaglandin E2 synthase. Gene deletions in budding and fission yeasts and knock-down experiments with the worm have not revealed any clear in vivo requirements for p23. We find that p23 is not essential for overall prenatal development and morphogenesis of the mouse, which parallels the observation that it is dispensable for proliferation in yeast. In contrast, p23 is absolutely necessary for perinatal survival. Apart from an incompletely formed skin barrier, the lungs of p23 null embryos display underdeveloped airspaces and substantially reduced expression of surfactant genes. Correlating with the known function of glucocorticoids in promoting lung maturation and the role of p23 in the assembly of a hormone-responsive glucocorticoid receptor-Hsp90 complex, p23 null fibroblast cells have a defective glucocorticoid response. Thus, p23 contributes a nonredundant, temporally restricted, and tissue-specific function during mouse development. [ABSTRACT FROM AUTHOR]

Published
2006
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30. TgMAPK1 is a Toxoplasma gondii MAP kinase that hijacks host MKK3 signals to regulate virulence and interferon-γ-mediated nitric oxide production.

Author

Brumlik, Michael J., Pandeswara, Srilakshmi, Ludwig, Sara M., Jeansonne, Duane P., Lacey, Michelle R., Murthy, Kruthi, Daniel, Benjamin J., Wang, Rong-Fu, Thibodeaux, Suzanne R., Church, Kristina M., Hurez, Vincent, Kious, Mark J., Zhang, Bin, Alagbala, Adebusola, Xia, Xiaojun, and Curiel, Tyler J.

Subjects
*TOXOPLASMA gondii, *MITOGEN-activated protein kinases, *NITRIC oxide, *MICROBIAL virulence, *INTERFERONS, *PARASITOLOGY
Abstract

Highlights: [•] TgMAPK1 is a Toxoplasma gondii mitogen-activated protein kinase (MAPK). [•] It affects parasite proliferation in an IFN-γ, iNOS and MKK3-dependent manner. [•] Parasite tissue burden is regulated by TgMAPK1 expression in iNOS-replete tissues. [•] Thus TgMAPK1 ultimately affects virulence by manipulating host IFN-γ-mediated iNOS. [ABSTRACT FROM AUTHOR]

Published
2013
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31. A simple method to detect Toxopl a sma gondii-specific cytotoxic T cells in vivo

Author

Daniel, Benjamin J., Pandeswara, Srilakshmi, Brumlik, Michael J., Liu, AiJie, Thibodeaux, Suzanne R., Ludwig, Sara M., Sun, Xiuhua, and Curiel, Tyler J.

Subjects
*TOXOPLASMA gondii, *T cell differentiation, *CELL-mediated cytotoxicity, *CELLULAR immunity, *ANIMAL models of immunology, *LABORATORY mice, *PARASITE antigens
Abstract

Abstract: Cytotoxic T cells (CTLs) are an important component of adaptive immunity. The study of antigen-specific CTLs in vivo is desirable yet difficult. Identification of the class I-restricted peptide used by CTLs for target recognition is often required for detailed studies, but is generally not known for most antigens. Toxoplasma gondii is a medically important, obligate intracellular parasite and is often used as a model for studies of parasite immunology. No class I-restricted peptides for CTLs are known. We show here a new and convenient method to detect T. gondii-specific CTLs in vivo. We engineered T. gondii tachyzoites to express the model antigen ovalbumin, for which many useful reagents and transgenic mice are available. Using ovalbumin-transgenic T. gondii tachyzoites, antigen-specific CTLs were detected in vivo, and at much earlier time points post-infection than previously reported. This new method has several additional advantages over current methods to detect T. gondii-specific CTLs. [Copyright &y& Elsevier]

Published
2010
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32. Single plasmids expressing human steroid hormone receptors and a reporter gene for use in yeast signaling assays

Author

Miller, Charles A., Tan, Xiaobing, Wilson, Mark, Bhattacharyya, Sunanda, and Ludwig, Sara

Subjects
*PLASMIDS, *STEROID receptors, *HEAT shock proteins, *GENE expression, *SACCHAROMYCES cerevisiae, *XENOBIOTICS, *LIGANDS (Biochemistry), *POLYMERASE chain reaction
Abstract

Abstract: Single plasmids designed to express the six human type I steroid hormone receptors and detect signaling activity are described in this report. These stably replicating plasmids reported ligand-induced transcriptional activation via lacZ assays in Baker’s yeast (Saccharomyces cerevisiae). The ligand concentrations needed to activate signaling in yeast expressing these plasmids spanned five orders of magnitude as based on comparisons of EC50 values. Radicicol, a direct inhibitor of heat shock protein 90 (Hsp90) and an indirect inhibitor of steroid hormone receptor signaling, was used to determine the functional utility of this yeast reporter system. The inhibitory effect of radicicol was similar on the signaling of all six steroid hormone receptors and was distinguishable from cytotoxic effects that occurred with higher concentrations. These yeast plasmids provide a high throughput system for comparative assessment of steroid hormone receptor signaling and may be useful in screening for pharmacological or xenobiotic activities. [Copyright &y& Elsevier]

Published
2010
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33. Mitigating Age-Related Immune Dysfunction Heightens the Efficacy of Tumor Immunotherapy in Aged Mice.

Author

Hurez, Vincent, Daniel, Benjamin J., Sun, Lishi, Liu, Ai-Jie, Ludwig, Sara M., Kious, Mark J., Thibodeaux, Suzanne R., Pandeswara, Srilakshmi, Murthy, Kruthi, B. Livi, Carolina, Wall, Shawna, Brumlik, Michael J., Shin, Tahiro, Bin Zhang, and Curiel, Tyler J.

Subjects
*CANCER immunotherapy, *IMMUNOLOGIC diseases, *MELANOMA immunotherapy, *T cells, *LABORATORY mice, *CANCER immunology
Abstract

Although cancer tends to affect the elderly, most preclinical studies are carried out in young subjects. In this study, we developed a melanoma- specific cancer immunotherapy that shows efficacy in aged but not young hosts by mitigating age- specific tumor-associated immune dysfunction. Both young and aged CD4þCD25hi regulatory T cells (Treg) exhibited equivalent in vitro T-cell suppression and tumor-associated augmentation in numbers. However, denileukin diftitox (DT)- mediated Treg depletion improved tumor-specific immunity and was clinically effective only in young mice. DT-mediated Treg depletion significantly increased myeloid-derived suppressor cell (MDSC) numbers in aged but not young mice, and MDSC depletion improved tumor-specific immunity and reduced tumor growth in aged mice. Combining Treg depletion with anti-Gr-1 antibody was immunolog-ically and clinically more efficacious than anti-Gr-1 antibody alone in aged B16-bearing mice, similar to Treg depletion alone in young mice. In contrast, DT increased MDSCs in young and aged mice following MC-38 tumor challenge, although effects were greater in aged mice. Anti-Gr-1 boosted DT effects in young but not aged mice. Aged antitumor immune effector cells are therefore competent to combat tumor when underlying tumor-associated immune dysfunction is appropriately mitigated, but this dysfunction varies with tumor, thus also varying responses to immunotherapy. By tailoring immunotherapy to account for age-related tumor-associated immune dysfunctions, cancer immunotherapy for aged patients with specific tumors can be remarkably improved. [ABSTRACT FROM AUTHOR]

Published
2012
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34. Suppression of melanoma by mice lacking MHC-II: Mechanisms and implications for cancer immunotherapy.

Author

Shi H, Medler D, Wang J, Browning R, Liu A, Schneider S, Duran Bojorquez C, Kumar A, Li X, Quan J, Ludwig S, Moresco JJ, Xing C, Moresco EMY, and Beutler B

Subjects
Animals, Mice, Melanoma immunology, Melanoma therapy, Melanoma genetics, Melanoma pathology, Melanoma, Experimental immunology, Melanoma, Experimental therapy, Melanoma, Experimental pathology, Melanoma, Experimental genetics, Histocompatibility Antigens Class II immunology, Histocompatibility Antigens Class II genetics, T-Lymphocytes, Regulatory immunology, Immune Checkpoint Inhibitors pharmacology, Immune Checkpoint Inhibitors therapeutic use, Cell Line, Tumor, Mice, Inbred C57BL, Immunotherapy methods, Dendritic Cells immunology, CD8-Positive T-Lymphocytes immunology
Abstract

Immune checkpoint inhibitors interfere with T cell exhaustion but often fail to cure or control cancer long-term in patients. Using a genetic screen in C57BL/6J mice, we discovered a mutation in host H2-Aa that caused strong immune-mediated resistance to mouse melanomas. H2-Aa encodes an MHC class II α chain, and its absence in C57BL/6J mice eliminates all MHC-II expression. H2-Aa deficiency, specifically in dendritic cells (DC), led to a quantitative increase in type 2 conventional DC (cDC2) and a decrease in cDC1. H2-Aa-deficient cDC2, but not cDC1, were essential for melanoma suppression and effectively cross-primed and recruited CD8 T cells into tumors. Lack of T regulatory cells, also observed in H2-Aa deficiency, contributed to melanoma suppression. Acute disruption of H2-Aa was therapeutic in melanoma-bearing mice, particularly when combined with checkpoint inhibition, which had no therapeutic effect by itself. Our findings suggest that inhibiting MHC-II may be an effective immunotherapeutic approach to enhance immune responses to cancer., (© 2024 Shi et al.)

Published
2024
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35. Nonredundant Role of Leishmanolysin-Like (Lmln) Zinc-Metallopeptidase in Retinal Homeostasis.

Author

Ufret-Vincenty RL, Kirman DC, Ulker-Yilmazer G, Aredo B, Shrestha S, Turpin E, Yuksel S, Zegeye Y, Ludwig S, Moresco EMY, He YG, and Beutler B

Abstract

Purpose: To determine if Lmln, a Zinc-metallopeptidase, is important for retinal homeostasis., Design: Basic research in mouse models of retinal degeneration., Methods: Combining an unbiased N-ethyl-N-nitrosourea mutagenesis pipeline in mice with optical coherence tomography (OCT) screening and automated meiotic mapping, we identified an allele (nemeth) that seemed to be associated with outer nuclear layer (ONL) thinning. Since nemeth was predicted to lead to a nonsense mutation of the Lmln gene, we targeted Lmln using CRISPR/Cas-9 technology and characterized the impact on retinal anatomy and function., Results: OCT imaging demonstrated an outer retinal degeneration in Lmln -/- mice (P = 7.3 × 10 -9 for ONL at 2 m) that progressed over the first 6 months of life and then stabilized. Light microscopy showed loss of ONL nuclei (P ranged between .00033 and .0097 for posterior measurements), and a TUNEL assay revealed a small but significant increase in apoptosis (P = .034). Lmln -/- mice accumulated fundus spots (P = .0030 by 2 m of age) and activated subretinal microglia (P ranged from .0007 to 8 × 10 -13 for Gal3 + cells). Scotopic electroretinography demonstrated a decrease in retinal function in Lmln -/- mice both at 6 m (only a-wave, P < .01 for all stimuli) and at 10 m of age (P < .01 for both a-wave and b-wave with all stimuli)., Conclusions: Our work revealed a previously unknown essential role for Lmln in maintaining retinal anatomy and function. Further studies using this new model will be aimed at determining the cellular expression of Lmln and its mechanisms of action within the retina., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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36. Genetic determinants of blood pressure and heart rate identified through ENU-induced mutagenesis with automated meiotic mapping.

Author

Teixeira SK, Pontes R, Zuleta LFG, Wang J, Xu D, Hildebrand S, Russell J, Zhan X, Choi M, Tang M, Li X, Ludwig S, Beutler B, and Krieger JE

Subjects
Mice, Animals, Blood Pressure genetics, Heart Rate genetics, Mutagenesis, Alleles, Ethylnitrosourea toxicity
Abstract

We used N -ethyl- N -nitrosurea-induced germline mutagenesis combined with automated meiotic mapping to identify specific systolic blood pressure (SBP) and heart rate (HR) determinant loci. We analyzed 43,627 third-generation (G3) mice from 841 pedigrees to assess the effects of 45,378 variant alleles within 15,760 genes, in both heterozygous and homozygous states. We comprehensively tested 23% of all protein-encoding autosomal genes and found 87 SBP and 144 HR (with 7 affecting both) candidates exhibiting detectable hypomorphic characteristics. Unexpectedly, only 18 of the 87 SBP genes were previously known, while 26 of the 144 genes linked to HR were previously identified. Furthermore, we confirmed the influence of two genes on SBP regulation and three genes on HR control through reverse genetics. This underscores the importance of our research in uncovering genes associated with these critical cardiovascular risk factors and illustrate the effectiveness of germline mutagenesis for defining key determinants of polygenic phenotypes that must be studied in an intact organism.

Published
2024
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37. Essential role of MFSD1-GLMP-GIMAP5 in lymphocyte survival and liver homeostasis.

Author

Zhong X, Moresco JJ, Diedrich JK, Pinto AM, SoRelle JA, Wang J, Keller K, Ludwig S, Moresco EMY, Beutler B, and Choi JH

Subjects
Humans, Proteomics, Liver metabolism, Lymphocytes metabolism, Homeostasis, GTP-Binding Proteins metabolism, Lymphopenia genetics
Abstract

We detected ENU-induced alleles of Mfsd1 (encoding the major facilitator superfamily domain containing 1 protein) that caused lymphopenia, splenomegaly, progressive liver pathology, and extramedullary hematopoiesis (EMH). MFSD1 is a lysosomal membrane-bound solute carrier protein with no previously described function in immunity. By proteomic analysis, we identified association between MFSD1 and both GLMP (glycosylated lysosomal membrane protein) and GIMAP5 (GTPase of immunity-associated protein 5). Germline knockout alleles of Mfsd1 , Glmp , and Gimap5 each caused lymphopenia, liver pathology, EMH, and lipid deposition in the bone marrow and liver. We found that the interactions of MFSD1 and GLMP with GIMAP5 are essential to maintain normal GIMAP5 expression, which in turn is critical to support lymphocyte development and liver homeostasis that suppresses EMH. These findings identify the protein complex MFSD1-GLMP-GIMAP5 operating in hematopoietic and extrahematopoietic tissues to regulate immunity and liver homeostasis., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2023
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38. RNPS1 inhibits excessive tumor necrosis factor/tumor necrosis factor receptor signaling to support hematopoiesis in mice.

Author

Zhong X, Choi JH, Hildebrand S, Ludwig S, Wang J, Nair-Gill E, Liao TC, Moresco JJ, Liu A, Quan J, Sun Q, Zhang D, Zhan X, Choi M, Li X, Wang J, Gallagher T, Moresco EMY, and Beutler B

Subjects
Animals, Hematopoiesis genetics, Homozygote, Mammals metabolism, Mice, Receptors, Tumor Necrosis Factor metabolism, Sequence Deletion, Tumor Necrosis Factors metabolism, CD8-Positive T-Lymphocytes metabolism, Ribonucleoproteins metabolism
Abstract

Null mutations of spliceosome components or cofactors are homozygous lethal in eukaryotes, but viable hypomorphic mutations provide an opportunity to understand the physiological impact of individual splicing proteins. We describe a viable missense allele (F181I) of Rnps1 encoding an essential regulator of splicing and nonsense-mediated decay (NMD), identified in a mouse genetic screen for altered immune cell development. Homozygous mice displayed a stem cell–intrinsic defect in hematopoiesis of all lineages due to excessive apoptosis induced by tumor necrosis factor (TNF)–dependent death signaling. Numerous transcript splice variants containing retained introns and skipped exons were detected at elevated frequencies in Rnps1F181I/F181I splenic CD8+ T cells and hematopoietic stem cells (HSCs), but NMD appeared normal. Strikingly, Tnf knockout rescued all hematopoietic cells to normal or near-normal levels in Rnps1F181I/F181I mice and dramatically reduced intron retention in Rnps1F181I/F181I CD8+ T cells and HSCs. Thus, RNPS1 is necessary for accurate splicing, without which disinhibited TNF signaling triggers hematopoietic cell death.

Published
2022
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39. Saturation mutagenesis defines novel mouse models of severe spine deformity.

Author

Rios JJ, Denton K, Yu H, Manickam K, Garner S, Russell J, Ludwig S, Rosenfeld JA, Liu P, Munch J, Sucato DJ, Beutler B, and Wise CA

Subjects
Animals, Calcium-Binding Proteins genetics, Disease Models, Animal, Female, Male, Mice, Pedigree, Severity of Illness Index, Mutagenesis, Spine abnormalities
Abstract

Embryonic formation and patterning of the vertebrate spinal column requires coordination of many molecular cues. After birth, the integrity of the spine is impacted by developmental abnormalities of the skeletal, muscular and nervous systems, which may result in deformities, such as kyphosis and scoliosis. We sought to identify novel genetic mouse models of severe spine deformity by implementing in vivo skeletal radiography as part of a high-throughput saturation mutagenesis screen. We report selected examples of genetic mouse models following radiographic screening of 54,497 mice from 1275 pedigrees. An estimated 30.44% of autosomal genes harbored predicted damaging alleles examined twice or more in the homozygous state. Of the 1275 pedigrees screened, 7.4% presented with severe spine deformity developing in multiple mice, and of these, meiotic mapping implicated N-ethyl-N-nitrosourea alleles in 21% of pedigrees. Our study provides proof of concept that saturation mutagenesis is capable of discovering novel mouse models of human disease, including conditions with skeletal, neural and neuromuscular pathologies. Furthermore, we report a mouse model of skeletal disease, including severe spine deformity, caused by recessive mutation in Scube3. By integrating results with a human clinical exome database, we identified a patient with undiagnosed skeletal disease who harbored recessive mutations in SCUBE3, and we demonstrated that disease-associated mutations are associated with reduced transactivation of Smad signaling in vitro. All radiographic results and mouse models are made publicly available through the Mutagenetix online database with the goal of advancing understanding of spine development and discovering novel mouse models of human disease., Competing Interests: Competing interests The Department of Molecular and Human Genetics at Baylor College of Medicine receives revenue from clinical genetic testing conducted at Baylor Genetics Laboratories. P. L. is an employee of the Baylor College of Medicine and derives support through a professional services agreement with Baylor Genetics., (© 2021. Published by The Company of Biologists Ltd.)

Published
2021
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40. KDM5A mutations identified in autism spectrum disorder using forward genetics.

Author

El Hayek L, Tuncay IO, Nijem N, Russell J, Ludwig S, Kaur K, Li X, Anderton P, Tang M, Gerard A, Heinze A, Zacher P, Alsaif HS, Rad A, Hassanpour K, Abbaszadegan MR, Washington C, DuPont BR, Louie RJ, Couse M, Faden M, Rogers RC, Abou Jamra R, Elias ER, Maroofian R, Houlden H, Lehman A, Beutler B, and Chahrour MH

Subjects
Adolescent, Animals, Child, Preschool, Female, Genetic Predisposition to Disease genetics, Genetic Techniques, Humans, Male, Mice, Mice, Knockout, Mutation, Autism Spectrum Disorder genetics, Retinoblastoma-Binding Protein 2 genetics
Abstract

Autism spectrum disorder (ASD) is a constellation of neurodevelopmental disorders with high phenotypic and genetic heterogeneity, complicating the discovery of causative genes. Through a forward genetics approach selecting for defective vocalization in mice, we identified Kdm5a as a candidate ASD gene. To validate our discovery, we generated a Kdm5a knockout mouse model ( Kdm5a -/- ) and confirmed that inactivating Kdm5a disrupts vocalization. In addition, Kdm5a -/- mice displayed repetitive behaviors, sociability deficits, cognitive dysfunction, and abnormal dendritic morphogenesis. Loss of KDM5A also resulted in dysregulation of the hippocampal transcriptome. To determine if KDM5A mutations cause ASD in humans, we screened whole exome sequencing and microarray data from a clinical cohort. We identified pathogenic KDM5A variants in nine patients with ASD and lack of speech. Our findings illustrate the power and efficacy of forward genetics in identifying ASD genes and highlight the importance of KDM5A in normal brain development and function., Competing Interests: LE, IT, NN, JR, SL, KK, XL, PA, MT, AG, AH, PZ, HA, AR, KH, MA, CW, BD, RL, MC, MF, RR, RA, EE, RM, HH, AL, BB, MC No competing interests declared, (© 2020, El Hayek et al.)

Published
2020
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41. Essential cell-extrinsic requirement for PDIA6 in lymphoid and myeloid development.

Author

Choi JH, Zhong X, Zhang Z, Su L, McAlpine W, Misawa T, Liao TC, Zhan X, Russell J, Ludwig S, Li X, Tang M, Anderton P, Moresco EMY, and Beutler B

Subjects
Animals, B-Cell Activating Factor immunology, Cell Line, Female, HEK293 Cells, Hematopoiesis immunology, Humans, Interleukin-7 immunology, Male, Mice, Mice, Inbred C57BL, T-Lymphocytes immunology, Wnt3A Protein immunology, Lymphocytes immunology, Myeloid Cells immunology, Protein Disulfide-Isomerases immunology
Abstract

In a forward genetic screen of N-ethyl-N-nitrosourea (ENU)-induced mutant mice for aberrant immune function, we identified mice with a syndromic disorder marked by growth retardation, diabetes, premature death, and severe lymphoid and myeloid hypoplasia together with diminished T cell-independent (TI) antibody responses. The causative mutation was in Pdia6, an essential gene encoding protein disulfide isomerase A6 (PDIA6), an oxidoreductase that functions in nascent protein folding in the endoplasmic reticulum. The immune deficiency caused by the Pdia6 mutation was, with the exception of a residual T cell developmental defect, completely rescued in irradiated wild-type recipients of PDIA6-deficient bone marrow cells, both in the absence or presence of competition. The viable hypomorphic allele uncovered in these studies reveals an essential role for PDIA6 in hematopoiesis, but one extrinsic to cells of the hematopoietic lineage. We show evidence that this role is in the proper folding of Wnt3a, BAFF, IL-7, and perhaps other factors produced by the extra-hematopoietic compartment that contribute to the development and lineage commitment of hematopoietic cells., Competing Interests: Disclosures: The authors declare no competing interests exist., (© 2020 Choi et al.)

Published
2020
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42. The class I myosin MYO1D binds to lipid and protects against colitis.

Author

McAlpine W, Wang KW, Choi JH, San Miguel M, McAlpine SG, Russell J, Ludwig S, Li X, Tang M, Zhan X, Choi M, Wang T, Bu CH, Murray AR, Moresco EMY, Turer EE, and Beutler B

Subjects
Actin Cytoskeleton metabolism, Animals, Cell Differentiation, Colitis genetics, Colitis pathology, Dextran Sulfate, Epithelial Cells metabolism, Epithelial Cells pathology, Female, Genes, Recessive, Hematopoiesis, Intestinal Mucosa pathology, Intestines pathology, Mice, Inbred C57BL, Mutation genetics, Phenotype, Reproducibility of Results, Colitis metabolism, Colitis prevention & control, Membrane Lipids metabolism, Myosins metabolism
Abstract

Myosin ID (MYO1D) is a member of the class I myosin family. We screened 48,649 third generation (G3) germline mutant mice derived from N-ethyl-N-nitrosourea-mutagenized grandsires for intestinal homeostasis abnormalities after oral administration of dextran sodium sulfate (DSS). We found and validated mutations in Myo1d as a cause of increased susceptibility to DSS-induced colitis. MYO1D is produced in the intestinal epithelium, and the colitis phenotype is dependent on the nonhematopoietic compartment of the mouse. Moreover, MYO1D appears to couple cytoskeletal elements to lipid in an ATP-dependent manner. These findings demonstrate that MYO1D is needed to maintain epithelial integrity and protect against DSS-induced colitis., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2018. Published by The Company of Biologists Ltd.)

Published
2018
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43. Probability of phenotypically detectable protein damage by ENU-induced mutations in the Mutagenetix database.

Author

Wang T, Bu CH, Hildebrand S, Jia G, Siggs OM, Lyon S, Pratt D, Scott L, Russell J, Ludwig S, Murray AR, Moresco EMY, and Beutler B

Subjects
Alleles, Animals, Genes, Essential drug effects, Male, Mice, Mice, Inbred C57BL, Mutagenesis genetics, Probability, Algorithms, Databases, Genetic, Ethylnitrosourea toxicity, Mutation, Proteins genetics
Abstract

Computational inference of mutation effects is necessary for genetic studies in which many mutations must be considered as etiologic candidates. Programs such as PolyPhen-2 predict the relative severity of damage caused by missense mutations, but not the actual probability that a mutation will reduce/eliminate protein function. Based on genotype and phenotype data for 116,330 ENU-induced mutations in the Mutagenetix database, we calculate that putative null mutations, and PolyPhen-2-classified "probably damaging", "possibly damaging", or "probably benign" mutations have, respectively, 61%, 17%, 9.8%, and 4.5% probabilities of causing phenotypically detectable damage in the homozygous state. We use these probabilities in the estimation of genome saturation and the probability that individual proteins have been adequately tested for function in specific genetic screens. We estimate the proportion of essential autosomal genes in Mus musculus (C57BL/6J) and show that viable mutations in essential genes are more likely to induce phenotype than mutations in non-essential genes.

Published
2018
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44. Coupling hippocampal neurogenesis to brain pH through proneurogenic small molecules that regulate proton sensing G protein-coupled receptors.

Author

Schneider JW, Goetsch SC, Leng X, Ludwig SM, Russell JL, Yang CP, and Zhang QJ

Subjects
Animals, Cells, Cultured, Hippocampus cytology, Hydrogen-Ion Concentration, Maze Learning physiology, Mice, Neural Stem Cells metabolism, Neural Stem Cells physiology, Receptors, G-Protein-Coupled physiology, Brain physiology, Hippocampus physiology, Neurogenesis physiology, Receptors, G-Protein-Coupled metabolism
Abstract

Acidosis, a critical aspect of central nervous system (CNS) pathophysiology and a metabolic corollary of the hypoxic stem cell niche, could be an expedient trigger for hippocampal neurogenesis and brain repair. We recently tracked the function of our isoxazole stem cell-modulator small molecules (Isx) through a chemical biology-target discovery strategy to GPR68, a proton (pH) sensing G protein-coupled receptor with no known function in brain. Isx and GPR68 coregulated neuronal target genes such as Bex1 (brain-enriched X-linked protein-1) in hippocampal neural progenitors (HCN cells), which further amplified GPR68 signaling by producing metabolic acid in response to Isx. To evaluate this proneurogenic small molecule/proton signaling circuit in vivo, we explored GPR68 and BEX1 expression in brain and probed brain function with Isx. We localized proton-sensing GPR68 to radial processes of hippocampal type 1 neural stem cells (NSCs) and, conversely, localized BEX1 to neurons. At the transcriptome level, Isx demonstrated unrivaled proneurogenic activity in primary hippocampal NSC cultures. In vivo, Isx pharmacologically targeted type 1 NSCs, promoting neurogenesis in young mice, depleting the progenitor pool without adversely affecting hippocampal learning and memory function. After traumatic brain injury, cerebral cortical astrocytes abundantly expressed GPR68, suggesting an additional role for proton-GPCR signaling in reactive astrogliosis. Thus, probing a novel proneurogenic synthetic small molecule's mechanism-of-action, candidate target, and pharmacological activity, we identified a new GPR68 regulatory pathway for integrating neural stem and astroglial cell functions with brain pH.

Published
2012
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45. B7-H1-dependent sex-related differences in tumor immunity and immunotherapy responses.

Author

Lin PY, Sun L, Thibodeaux SR, Ludwig SM, Vadlamudi RK, Hurez VJ, Bahar R, Kious MJ, Livi CB, Wall SR, Chen L, Zhang B, Shin T, and Curiel TJ

Subjects
Animals, Antigens, Differentiation physiology, B7-1 Antigen genetics, B7-H1 Antigen, Cell Line, Tumor, Female, Immunity, Innate genetics, Male, Melanoma, Experimental physiopathology, Membrane Glycoproteins deficiency, Membrane Glycoproteins genetics, Mice, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Ovalbumin biosynthesis, Ovalbumin genetics, Ovalbumin immunology, Peptides deficiency, Peptides genetics, Programmed Cell Death 1 Receptor, Signal Transduction genetics, Signal Transduction immunology, T-Lymphocytes, Regulatory immunology, T-Lymphocytes, Regulatory metabolism, T-Lymphocytes, Regulatory pathology, B7-1 Antigen physiology, Immunotherapy, Adoptive methods, Melanoma, Experimental immunology, Melanoma, Experimental therapy, Membrane Glycoproteins physiology, Peptides physiology, Sex Characteristics
Abstract

CD4(+)CD25(+)Foxp3(+) regulatory T cells (Tregs) are immunopathogenic in cancers by impeding tumor-specific immunity. B7-homologue 1 (B7-H1) (CD274) is a cosignaling molecule with pleiotropic effects, including hindering antitumor immunity. In this study, we demonstrate sex-dependent, B7-H1-dependent differences in tumor immunity and response to immunotherapy in a hormone-independent cancer, murine B16 melanoma. Antitumor immunity was better in B7-H1(-/-) females versus males as a result of reduced regulatory T cell function in the B7-H1(-/-) females, and clinical response following B7-H1 blockade as tumor immunotherapy was significantly better in wild-type females than in males, owing to greater B7-H1 blockade-mediated reduction of Treg function in females. Wild-type female Tregs expressed significantly lower B7-H1 versus males but were insensitive to estrogen in vitro. Female B7-H1(-/-) Tregs were exquisitely sensitive to estrogen-mediated functional reduction in vitro, suggesting that B7-H1 effects occur before terminal Treg differentiation. Immune differences were independent of known B7-H1 ligands. Sex-dependent immune differences are seldom considered in designing immune therapy or interpreting immunotherapy treatment results. Our data demonstrate that sex is an important variable in tumor immunopathogenesis and immunotherapy responses through differential Treg function and B7-H1 signaling.

Published
2010
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46. Antigen-specific immunity and cross-priming by epithelial ovarian carcinoma-induced CD11b(+)Gr-1(+) cells.

Author

Tomihara K, Guo M, Shin T, Sun X, Ludwig SM, Brumlik MJ, Zhang B, Curiel TJ, and Shin T

Subjects
Adoptive Transfer, Animals, Antigens immunology, Cell Separation, Female, Flow Cytometry, Lymphocyte Activation immunology, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, T-Lymphocytes immunology, CD11b Antigen immunology, Cross-Priming immunology, Myeloid Cells immunology, Ovarian Neoplasms immunology, Receptors, Chemokine immunology
Abstract

Both innate and adaptive immune systems are considered important for cancer prevention, immunosurveillance, and control of cancer progression. It is known that, although both systems initially eliminate emerging tumor cells efficiently, tumors eventually escape immune attack by a variety of mechanisms, including differentiation and recruitment of immunosuppressive CD11b(+)Gr-1(+) myeloid suppressor cells into the tumor microenvironment. However, we show that CD11b(+)Gr-1(+) cells found in ascites of epithelial ovarian cancer-bearing mice at advanced stages of disease are immunostimulatory rather than being immunosuppressive. These cells consist of a homogenous population of cells that morphologically resemble neutrophils. Moreover, like dendritic cells, immunostimulatory CD11b(+)Gr-1(+) cells can strongly cross-prime, augmenting the proliferation of functional CTLs via signaling through the expression of costimulatory molecule CD80. Adoptive transfer of these immunostimulatory CD11b(+)Gr-1(+) cells from ascites of ovarian cancer-bearing mice results in the significant regression of s.c. tumors even without being pulsed with exogenous tumor Ag prior to adoptive transfer. We now show for the first time that adaptive immune responses against cancer can be augmented by these cancer-induced granulocyte-like immunostimulatory myeloid (CD11b(+)Gr-1(+)) cells, thereby mediating highly effective antitumor immunity in an adoptive transfer model of immunity.

Published
2010
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