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JEM staff members are working remotely in line with New York City’s efforts to contain COVID-19. While our offices are physically closed, editorial and publication operations continue. JEM staff can be reached via email and phone, as we tend to our family, friends and community. Thank you for your patience and understanding.

Newest Articles
Brief Definitive Report
| June 01 2020
Featured Figure
Insulin receptor and T regs in metabolism
Dan Wu, Chi Kin Wong, Jonathan M. Han, Paul C. Orban, Qing Huang, Jana Gillies, Majid Mojibian, William T. Gibson, Megan K. Levings
Insulin receptor deletion in T regs improves metabolic outcomes in models of diet- and age-induced obesity and hyperinsulinemia. Direct effects of hyperinsulinemia on T regs is a previously unknown mechanism controlling T reg function in metabolic syndrome.
Article
| May 26 2020
Featured Figure
Targeting CLK3 reprograms nucleotide metabolism
Qingxin Zhou, Meihua Lin, Xing Feng, Fei Ma, Yuekun Zhu, Xing Liu, Chao Qu, Hong Sui, Bei Sun, Anlong Zhu, Heng Zhang, He Huang, Zhi Gao, Yongxiang Zhao, Jiangyun Sun, Yuxian Bai, Junfei Jin, Xuehui Hong, Chang Zou, Zhiyong Zhang
Zhou et al. characterize a critical role of CLK3 on purine metabolism in cholangiocarcinoma (CCA). Overexpressed or mutated CLK3 promotes CCA progression in vitro and in vivo. Therefore, CLK3 may serve as a biomarker and potential drug target for CCA.
Article
| May 26 2020
Featured Figure
Early and systemic dysregulation of dendritic cells during pancreatic carcinogenesis
Jeffrey H. Lin, Austin P. Huffman, Max M. Wattenberg, David M. Walter, Erica L. Carpenter, David M. Feldser, Gregory L. Beatty, Emma E. Furth, Robert H. Vonderheide
Type 1 conventional dendritic cells are progressively and systemically dysregulated during pancreatic carcinogenesis, subject to semimaturation and IL-6–driven apoptosis. Yet, CD40 agonist synergizes with Flt3L to rescue cDC1 abundance and maturation, enabling a return to full CD8+ T cell priming.
Article
| May 26 2020
Featured Figure
NKG2D regulates CD4 + Th cell–mediated immunity
Marina Babic, Christoforos Dimitropoulos, Quirin Hammer, Christina Stehle, Frederik Heinrich, Assel Sarsenbayeva, Almut Eisele, Pawel Durek, Mir-Farzin Mashreghi, Berislav Lisnic, Jacques Van Snick, Max Löhning, Simon Fillatreau, David R. Withers, Nicola Gagliani, Samuel Huber, Richard A. Flavell, Bojan Polic, Chiara Romagnani
NKG2D is a danger sensor expressed on different subsets of innate and adaptive lymphocytes. This study demonstrates how NKG2D enforces proinflammatory features of Th1 and Th17 cells and promotes inflammation in vivo, identifying NKG2D as an important target for the amelioration of Th1/ Th17-mediated inflammatory diseases.
Article
| May 22 2020
Featured Figure
Targeting Sirt1–Nox4 signaling in cancer cachexia
Aneesha Dasgupta, Surendra K. Shukla, Enza Vernucci, Ryan J. King, Jaime Abrego, Scott E. Mulder, Nicholas J. Mullen, Gavin Graves, Kyla Buettner, Ravi Thakur, Divya Murthy, Kuldeep S. Attri, Dezhen Wang, Nina V. Chaika, Camila G. Pacheco, Ibha Rai, Dannielle D. Engle, Paul M. Grandgenett, Michael Punsoni, Bradley N. Reames, Melissa Teoh-Fitzgerald, Rebecca Oberley-Deegan, Fang Yu, Kelsey A. Klute, Michael A. Hollingsworth, Matthew C. Zimmerman, Kamiya Mehla, Junichi Sadoshima, David A. Tuveson, Pankaj K. Singh
This study demonstrates a novel signaling pathway regulating pancreatic cancer cachexia. These results establish that the Sirt1–Nox4 signaling axis plays an essential role in the manifestation of pancreatic cancer cachexia, and inhibition of this axis abrogates the cachexia syndrome.
Brief Definitive Report
| May 20 2020
Featured Figure
Stromal FGF1 regulates MYC in pancreatic cancer
Sohinee Bhattacharyya, Chet Oon, Aayush Kothari, Wesley Horton, Jason Link, Rosalie C. Sears, Mara H. Sherman
Here Bhattacharyya et al. show that MYC is a molecular point of convergence for microenvironmental and cell-autonomous signals in RAS-transformed pancreatic cancer cells. They identify cancer-associated fibroblast–derived FGF1 as a critical paracrine regulator of MYC, and a novel link between the pancreatic tumor microenvironment and oncogenic transcription.
Article
| May 20 2020
Featured Figure
Functional heterogeneity of CAFs in ovarian cancer
Ali Hussain, Veronique Voisin, Stephanie Poon, Christina Karamboulas, Ngoc Hoang Bao Bui, Jalna Meens, Julia Dmytryshyn, Victor W. Ho, Kwan Ho Tang, Joshua Paterson, Blaise A. Clarke, Marcus Q. Bernardini, Gary D. Bader, Benjamin G. Neel, Laurie E. Ailles
In this study, Hussain et al. demonstrate that cancer-associated fibroblasts (CAFs) in high-grade serous ovarian cancer are heterogeneous, that CAF state drives cancer aggressiveness and patient outcomes, and that TCF21 is a master regulator of CAF state.

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Related Articles from Rockefeller University Press

Current Issue
Volume 217,
Issue 6,
June 1, 2020
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Reviews & Opinions
Viewpoint
| May 20 2020
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Personalized medicine and circadian rhythms: Opportunities for modern society
Carolina Magdalen Greco, Paolo Sassone-Corsi
Personalized medicine and circadian rhythms: Opportunities for modern society
Insights
| May 08 2020
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Survivre et vivre : When iNKT cells met a Hippo
Luc Van Kaer, Sebastian Joyce
The Hippo signaling pathway controls the maturation and effector differentiation of iNKT cells.
Perspective
| April 30 2020
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A review of the anti-COVID immune response
Santosha A. Vardhana, Jedd D. Wolchok
This Perspective explores the contributions of the innate and adaptive immune systems to both viral control as well as toxicity during COVID-19 infections and offers suggestions to both understand and therapeutically modulate anti-COVID immunity.
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The many faces of the anti-COVID immune response
Targeting potential drivers of COVID-19: Neutrophil extracellular traps
HSV1 VP1-2 deubiquitinates STING to block type I interferon expression and promote brain infection
Efficient gene knockout in primary human and murine myeloid cells by non-viral delivery of CRISPR-Cas9
COVID-19 and emerging viral infections: The case for interferon lambda

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Neuroscience 2019

A special collection of recent articles from JEM

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