Varicella zoster virus (VZV) typically causes chickenpox upon primary infection. In rare cases, VZV can give rise to life-threatening disease in otherwise healthy people, but the immunological basis for this remains unexplained. We report 4 cases of acute severe VZV infection affecting the central nervous system or the lungs in unrelated, otherwise healthy children who are heterozygous for rare missense mutations in POLR3A (one patient), POLR3C (one patient), or both (two patients). POLR3A and POLR3C encode subunits of RNA polymerase III. Leukocytes from all 4 patients tested exhibited poor IFN induction in response to synthetic or VZV-derived DNA. Moreover, leukocytes from 3 of the patients displayed defective IFN production upon VZV infection and reduced control of VZV replication. These phenotypes were rescued by transduction with relevant WT alleles. This work demonstrates that monogenic or digenic POLR3A and POLR3C deficiencies confer increased susceptibility to severe VZV disease in otherwise healthy children, providing evidence for an essential role of a DNA sensor in human immunity.
Benson Ogunjimi, Shen-Ying Zhang, Katrine B. Sørensen, Kristian A. Skipper, Madalina Carter-Timofte, Gaspard Kerner, Stefanie Luecke, Thaneas Prabakaran, Yujia Cai, Josephina Meester, Esther Bartholomeus, Nikhita Ajit Bolar, Geert Vandeweyer, Charlotte Claes, Yasmine Sillis, Lazaro Lorenzo, Raffaele A. Fiorenza, Soraya Boucherit, Charlotte Dielman, Steven Heynderickx, George Elias, Andrea Kurotova, Ann Vander Auwera, Lieve Verstraete, Lieven Lagae, Helene Verhelst, Anna Jansen, Jose Ramet, Arvid Suls, Evelien Smits, Berten Ceulemans, Lut Van Laer, Genevieve Plat Wilson, Jonas Kreth, Capucine Picard, Horst Von Bernuth, Joël Fluss, Stephane Chabrier, Laurent Abel, Geert Mortier, Sebastien Fribourg, Jacob Giehm Mikkelsen, Jean-Laurent Casanova, Søren R. Paludan, Trine H. Mogensen
The most frequent chromosomal structural loss in hepatocellular carcinoma (HCC) is of the short arm of chromosome 8 (8p). Genes on the remaining homologous chromosome, however, are not recurrently mutated, and the identity of key 8p tumor-suppressor genes (TSG) is unknown. In this work, analysis of minimal commonly deleted 8p segments to identify candidate TSG implicated GATA4, a master transcription factor driver of hepatocyte epithelial lineage fate. In a murine model, liver-conditional deletion of 1 Gata4 allele to model the haploinsufficiency seen in HCC produced enlarged livers with a gene expression profile of persistent precursor proliferation and failed hepatocyte epithelial differentiation. HCC mimicked this gene expression profile, even in cases that were morphologically classified as well differentiated. HCC with intact chromosome 8p also featured GATA4 loss of function via GATA4 germline mutations that abrogated GATA4 interactions with a coactivator, MED12, or by inactivating mutations directly in GATA4 coactivators, including ARID1A. GATA4 reintroduction into GATA4-haploinsufficient HCC cells or ARID1A reintroduction into ARID1A-mutant/GATA4-intact HCC cells activated hundreds of hepatocyte genes and quenched the proliferative precursor program. Thus, disruption of GATA4-mediated transactivation in HCC suppresses hepatocyte epithelial differentiation to sustain replicative precursor phenotype.
Francis O. Enane, Wai Ho Shuen, Xiaorong Gu, Ebrahem Quteba, Bartlomiej Przychodzen, Hideki Makishima, Juraj Bodo, Joanna Ng, Chit Lai Chee, Rebecca Ba, Lip Seng Koh, Janice Lim, Rachael Cheong, Marissa Teo, Zhenbo Hu, Kwok Peng Ng, Jaroslaw Maciejewski, Tomas Radivoyevitch, Alexander Chung, London Lucien Ooi, Yu Meng Tan, Peng Chung Cheow, Pierce Chow, Chung Yip Chan, Kiat Hon Lim, Lisa Yerian, Eric Hsi, Han Chong Toh, Yogen Saunthararajah
The lack of mechanistic explanations for many genotype-phenotype associations identified by GWAS precludes thorough assessment of their impact on human health. Here, we conducted an expression quantitative trait locus (eQTL) mapping analysis in erythroblasts and found erythroid-specific eQTLs for ATP2B4, the main calcium ATPase of red blood cells (rbc). The same SNPs were previously associated with mean corpuscular hemoglobin concentration (MCHC) and susceptibility to severe malaria infection. We showed that Atp2b4–/– mice demonstrate increased MCHC, confirming ATP2B4 as the causal gene at this GWAS locus. Using CRISPR-Cas9, we fine mapped the genetic signal to an erythroid-specific enhancer of ATP2B4. Erythroid cells with a deletion of the ATP2B4 enhancer had abnormally high intracellular calcium levels. These results illustrate the power of combined transcriptomic, epigenomic, and genome-editing approaches in characterizing noncoding regulatory elements in phenotype-relevant cells. Our study supports ATP2B4 as a potential target for modulating rbc hydration in erythroid disorders and malaria infection.
Samuel Lessard, Emily Stern Gatof, Mélissa Beaudoin, Patrick G. Schupp, Falak Sher, Adnan Ali, Sukhpal Prehar, Ryo Kurita, Yukio Nakamura, Esther Baena, Jonathan Ledoux, Delvac Oceandy, Daniel E. Bauer, Guillaume Lettre
The WD40-containing E3 ubiquitin ligase RFWD3 has been recently linked to the repair of DNA damage by homologous recombination (HR). Here we have shown that an RFWD3 mutation within the WD40 domain is connected to the genetic disease Fanconi anemia (FA). An individual presented with congenital abnormalities characteristic of FA. Cells from the patient carrying the compound heterozygous mutations c.205_206dupCC and c.1916T>A in RFWD3 showed increased sensitivity to DNA interstrand cross-linking agents in terms of increased chromosomal breakage, reduced survival, and cell cycle arrest in G2 phase. The cellular phenotype was mirrored in genetically engineered human and avian cells by inactivation of RFWD3 or introduction of the patient-derived missense mutation, and the phenotype was rescued by expression of wild-type RFWD3 protein. HR was disrupted in RFWD3-mutant cells as a result of impaired relocation of mutant RFWD3 to chromatin and defective physical interaction with replication protein A. Rfwd3 knockout mice appear to have increased embryonic lethality, are subfertile, show ovarian and testicular atrophy, and have a reduced lifespan resembling that of other FA mouse models. Although RFWD3 mutations have thus far been detected in a single child with FA, we propose RFWD3 as an FA gene, FANCW, supported by cellular paradigm systems and an animal model.
Kerstin Knies, Shojiro Inano, María J. Ramírez, Masamichi Ishiai, Jordi Surrallés, Minoru Takata, Detlev Schindler
Mutations in WNT1 cause osteogenesis imperfecta (OI) and early-onset osteoporosis, identifying it as a key Wnt ligand in human bone homeostasis. However, how and where WNT1 acts in bone are unclear. To address this mechanism, we generated late-osteoblast-specific and osteocyte-specific WNT1 loss- and gain-of-function mouse models. Deletion of Wnt1 in osteocytes resulted in low bone mass with spontaneous fractures similar to that observed in OI patients. Conversely, Wnt1 overexpression from osteocytes stimulated bone formation by increasing osteoblast number and activity, which was due in part to activation of mTORC1 signaling. While antiresorptive therapy is the mainstay of OI treatment, it has limited efficacy in WNT1-related OI. In this study, anti-sclerostin antibody (Scl-Ab) treatment effectively improved bone mass and dramatically decreased fracture rate in swaying mice, a model of global Wnt1 loss. Collectively, our data suggest that WNT1-related OI and osteoporosis are caused in part by decreased mTORC1-dependent osteoblast function resulting from loss of WNT1 signaling in osteocytes. As such, this work identifies an anabolic function of osteocytes as a source of Wnt in bone development and homoeostasis, complementing their known function as targets of Wnt signaling in regulating osteoclastogenesis. Finally, this study suggests that Scl-Ab is an effective genotype-specific treatment option for WNT1-related OI and osteoporosis.
Kyu Sang Joeng, Yi-Chien Lee, Joohyun Lim, Yuqing Chen, Ming-Ming Jiang, Elda Munivez, Catherine Ambrose, Brendan H. Lee
Autosomal dominant polycystic kidney disease (ADPKD) is driven by mutations in PKD1 and PKD2 genes. Recent work suggests that epigenetic modulation of gene expression and protein function may play a role in ADPKD pathogenesis. In this study, we identified SMYD2, a SET and MYND domain protein with lysine methyltransferase activity, as a regulator of renal cyst growth. SMYD2 was upregulated in renal epithelial cells and tissues from Pkd1-knockout mice as well as in ADPKD patients. SMYD2 deficiency delayed renal cyst growth in postnatal kidneys from Pkd1 mutant mice. Pkd1 and Smyd2 double-knockout mice lived longer than Pkd1-knockout mice. Targeting SMYD2 with its specific inhibitor, AZ505, delayed cyst growth in both early- and later-stage Pkd1 conditional knockout mouse models. SMYD2 carried out its function via methylation and activation of STAT3 and the p65 subunit of NF-κB, leading to increased cystic renal epithelial cell proliferation and survival. We further identified two positive feedback loops that integrate epigenetic regulation and renal inflammation in cyst development: SMYD2/IL-6/STAT3/SMYD2 and SMYD2/TNF-α/NF-κB/SMYD2. These pathways provide mechanisms by which SMYD2 might be induced by cyst fluid IL-6 and TNF-α in ADPKD kidneys. The SMYD2 transcriptional target gene Ptpn13 also linked SMYD2 to other PKD-associated signaling pathways, including ERK, mTOR, and Akt signaling, via PTPN13-mediated phosphorylation.
Linda Xiaoyan Li, Lucy X. Fan, Julie Xia Zhou, Jared J. Grantham, James P. Calvet, Julien Sage, Xiaogang Li
Targeted cancer therapies, which act on specific cancer-associated molecular targets, are predominantly inhibitors of oncogenic kinases. While these drugs have achieved some clinical success, the inactivation of kinase signaling via stimulation of endogenous phosphatases has received minimal attention as an alternative targeted approach. Here, we have demonstrated that activation of the tumor suppressor protein phosphatase 2A (PP2A), a negative regulator of multiple oncogenic signaling proteins, is a promising therapeutic approach for the treatment of cancers. Our group previously developed a series of orally bioavailable small molecule activators of PP2A, termed SMAPs. We now report that SMAP treatment inhibited the growth of KRAS-mutant lung cancers in mouse xenografts and transgenic models. Mechanistically, we found that SMAPs act by binding to the PP2A Aα scaffold subunit to drive conformational changes in PP2A. These results show that PP2A can be activated in cancer cells to inhibit proliferation. Our strategy of reactivating endogenous PP2A may be applicable to the treatment of other diseases and represents an advancement toward the development of small molecule activators of tumor suppressor proteins.
Jaya Sangodkar, Abbey Perl, Rita Tohme, Janna Kiselar, David B. Kastrinsky, Nilesh Zaware, Sudeh Izadmehr, Sahar Mazhar, Danica D. Wiredja, Caitlin M. O’Connor, Divya Hoon, Neil S. Dhawan, Daniela Schlatzer, Shen Yao, Daniel Leonard, Alain C. Borczuk, Giridharan Gokulrangan, Lifu Wang, Elena Svenson, Caroline C. Farrington, Eric Yuan, Rita A. Avelar, Agnes Stachnik, Blake Smith, Vickram Gidwani, Heather M. Giannini, Daniel McQuaid, Kimberly McClinch, Zhizhi Wang, Alice C. Levine, Rosalie C. Sears, Edward Y. Chen, Qiaonan Duan, Manish Datt, Shozeb Haider, Avi Ma’ayan, Analisa DiFeo, Neelesh Sharma, Matthew D. Galsky, David L. Brautigan, Yiannis A. Ioannou, Wenqing Xu, Mark R. Chance, Michael Ohlmeyer, Goutham Narla
Genetic variants at the solute carrier family 39 member 8 (
Wen Lin, David R. Vann, Paschalis-Thomas Doulias, Tao Wang, Gavin Landesberg, Xueli Li, Emanuela Ricciotti, Rosario Scalia, Miao He, Nicholas J. Hand, Daniel J. Rader
Identification and functional validation of oncogenic drivers are essential steps toward advancing cancer precision medicine. Here, we have presented a comprehensive analysis of the somatic genomic landscape of the widely used BRAFV600E- and NRASQ61K-driven mouse models of melanoma. By integrating the data with publically available genomic, epigenomic, and transcriptomic information from human clinical samples, we confirmed the importance of several genes and pathways previously implicated in human melanoma, including the tumor-suppressor genes phosphatase and tensin homolog (
Michael Olvedy, Julie C. Tisserand, Flavie Luciani, Bram Boeckx, Jasper Wouters, Sophie Lopez, Florian Rambow, Sara Aibar, Bernard Thienpont, Jasmine Barra, Corinna Köhler, Enrico Radaelli, Sophie Tartare-Deckert, Stein Aerts, Patrice Dubreuil, Joost J. van den Oord, Diether Lambrechts, Paulo De Sepulveda, Jean-Christophe Marine
Philipp S. Wild, Janine F. Felix, Arne Schillert, Alexander Teumer, Ming-Huei Chen, Maarten J.G. Leening, Uwe Völker, Vera Großmann, Jennifer A. Brody, Marguerite R. Irvin, Sanjiv J. Shah, Setia Pramana, Wolfgang Lieb, Reinhold Schmidt, Alice V. Stanton, Dörthe Malzahn, Albert Vernon Smith, Johan Sundström, Cosetta Minelli, Daniela Ruggiero, Leo-Pekka Lyytikäinen, Daniel Tiller, J. Gustav Smith, Claire Monnereau, Marco R. Di Tullio, Solomon K. Musani, Alanna C. Morrison, Tune H. Pers, Michael Morley, Marcus E. Kleber, AortaGen Consortium, Jayashri Aragam, Emelia J. Benjamin, Joshua C. Bis, Egbert Bisping, Ulrich Broeckel, CHARGE-Heart Failure Consortium, Susan Cheng, Jaap W. Deckers, Fabiola Del Greco M, Frank Edelmann, Myriam Fornage, Lude Franke, Nele Friedrich, Tamara B. Harris, Edith Hofer, Albert Hofman, Jie Huang, Alun D. Hughes, Mika Kähönen, KNHI investigators, Jochen Kruppa, Karl J. Lackner, Lars Lannfelt, Rafael Laskowski, Lenore J. Launer, Margrét Leosdottir, Honghuang Lin, Cecilia M. Lindgren, Christina Loley, Calum A. MacRae, Deborah Mascalzoni, Jamil Mayet, Daniel Medenwald, Andrew P. Morris, Christian Müller, Martina Müller-Nurasyid, Stefania Nappo, Peter M. Nilsson, Sebastian Nuding, Teresa Nutile, Annette Peters, Arne Pfeufer, Diana Pietzner, Peter P. Pramstaller, Olli T. Raitakari, Kenneth M. Rice, Fernando Rivadeneira, Jerome I. Rotter, Saku T. Ruohonen, Ralph L. Sacco, Tandaw E. Samdarshi, Helena Schmidt, Andrew S.P. Sharp, Denis C. Shields, Rossella Sorice, Nona Sotoodehnia, Bruno H. Stricker, Praveen Surendran, Simon Thom, Anna M. Töglhofer, André G. Uitterlinden, Rolf Wachter, Henry Völzke, Andreas Ziegler, Thomas Münzel, Winfried März, Thomas P. Cappola, Joel N. Hirschhorn, Gary F. Mitchell, Nicholas L. Smith, Ervin R. Fox, Nicole D. Dueker, Vincent W.V. Jaddoe, Olle Melander, Martin Russ, Terho Lehtimäki, Marina Ciullo, Andrew A. Hicks, Lars Lind, Vilmundur Gudnason, Burkert Pieske, Anthony J. Barron, Robert Zweiker, Heribert Schunkert, Erik Ingelsson, Kiang Liu, Donna K. Arnett, Bruce M. Psaty, Stefan Blankenberg, Martin G. Larson, Stephan B. Felix, Oscar H. Franco, Tanja Zeller, Ramachandran S. Vasan, Marcus Dörr