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A proteogenomic portrait of lung squamous cell carcinoma

Cell

2021 Aug 05

Satpathy, S;Krug, K;Jean Beltran, PM;Savage, SR;Petralia, F;Kumar-Sinha, C;Dou, Y;Reva, B;Kane, MH;Avanessian, SC;Vasaikar, SV;Krek, A;Lei, JT;Jaehnig, EJ;Omelchenko, T;Geffen, Y;Bergstrom, EJ;Stathias, V;Christianson, KE;Heiman, DI;Cieslik, MP;Cao, S;Song, X;Ji, J;Liu, W;Li, K;Wen, B;Li, Y;Gümüş, ZH;Selvan, ME;Soundararajan, R;Visal, TH;Raso, MG;Parra, ER;Babur, Ö;Vats, P;Anand, S;Schraink, T;Cornwell, M;Rodrigues, FM;Zhu, H;Mo, CK;Zhang, Y;da Veiga Leprevost, F;Huang, C;Chinnaiyan, AM;Wyczalkowski, MA;Omenn, GS;Newton, CJ;Schurer, S;Ruggles, KV;Fenyö, D;Jewell, SD;Thiagarajan, M;Mesri, M;Rodriguez, H;Mani, SA;Udeshi, ND;Getz, G;Suh, J;Li, QK;Hostetter, G;Paik, PK;Dhanasekaran, SM;Govindan, R;Ding, L;Robles, AI;Clauser, KR;Nesvizhskii, AI;Wang, P;Carr, SA;Zhang, B;Mani, DR;Gillette, MA;Clinical Proteomic Tumor Analysis Consortium, ;
PMID: 34358469 | DOI: 10.1016/j.cell.2021.07.016

Lung squamous cell carcinoma (LSCC) remains a leading cause of cancer death with few therapeutic options. We characterized the proteogenomic landscape of LSCC, providing a deeper exposition of LSCC biology with potential therapeutic implications. We identify NSD3 as an alternative driver in FGFR1-amplified tumors and low-p63 tumors overexpressing the therapeutic target survivin. SOX2 is considered undruggable, but our analyses provide rationale for exploring chromatin modifiers such as LSD1 and EZH2 to target SOX2-overexpressing tumors. Our data support complex regulation of metabolic pathways by crosstalk between post-translational modifications including ubiquitylation. Numerous immune-related proteogenomic observations suggest directions for further investigation. Proteogenomic dissection of CDKN2A mutations argue for more nuanced assessment of RB1 protein expression and phosphorylation before declaring CDK4/6 inhibition unsuccessful. Finally, triangulation between LSCC, LUAD, and HNSCC identified both unique and common therapeutic vulnerabilities. These observations and proteogenomics data resources may guide research into the biology and treatment of LSCC.

A tumour-resident Lgr5+ stem-cell-like pool drives the establishment and progression of advanced gastric cancers

Nature cell biology

2021 Dec 01

Fatehullah, A;Terakado, Y;Sagiraju, S;Tan, TL;Sheng, T;Tan, SH;Murakami, K;Swathi, Y;Ang, N;Rajarethinam, R;Ming, T;Tan, P;Lee, B;Barker, N;
PMID: 34857912 | DOI: 10.1038/s41556-021-00793-9

Gastric cancer is among the most prevalent and deadliest of cancers globally. To derive mechanistic insight into the pathways governing this disease, we generated a Claudin18-IRES-CreERT2 allele to selectively drive conditional dysregulation of the Wnt, Receptor Tyrosine Kinase and Trp53 pathways within the gastric epithelium. This resulted in highly reproducible metastatic, chromosomal-instable-type gastric cancer. In parallel, we developed orthotopic cancer organoid transplantation models to evaluate tumour-resident Lgr5+ populations as functional cancer stem cells via in vivo ablation. We show that Cldn18 tumours accurately recapitulate advanced human gastric cancer in terms of disease morphology, aberrant gene expression, molecular markers and sites of distant metastases. Importantly, we establish that tumour-resident Lgr5+ stem-like cells are critical to the initiation and maintenance of tumour burden and are obligatory for the establishment of metastases. These models will be invaluable for deriving clinically relevant mechanistic insights into cancer progression and as preclinical models for evaluating therapeutic targets.

A distinct D1-MSN subpopulation down-regulates dopamine to promote negative emotional state

Cell research

2021 Nov 30

Liu, Z;Le, Q;Lv, Y;Chen, X;Cui, J;Zhou, Y;Cheng, D;Ma, C;Su, X;Xiao, L;Yang, R;Zhang, J;Ma, L;Liu, X;
PMID: 34848869 | DOI: 10.1038/s41422-021-00588-5

Dopamine (DA) level in the nucleus accumbens (NAc) is critical for reward and aversion encoding. DA released from the ventral mesencephalon (VM) DAergic neurons increases the excitability of VM-projecting D1-dopamine receptor-expressing medium spiny neurons (D1-MSNs) in the NAc to enhance DA release and augment rewards. However, how such a DA positive feedback loop is regulated to maintain DA homeostasis and reward-aversion balance remains elusive. Here we report that the ventral pallidum (VP) projection of NAc D1-MSNs (D1NAc-VP) is inhibited by rewarding stimuli and activated by aversive stimuli. In contrast to the VM projection of D1-MSN (D1NAc-VM), activation of D1NAc-VP projection induces aversion, but not reward. D1NAc-VP MSNs are distinct from the D1NAc-VM MSNs, which exhibit conventional functions of D1-MSNs. Activation of D1NAc-VP projection stimulates VM GABAergic transmission, inhibits VM DAergic neurons, and reduces DA release into the NAc. Thus, D1NAc-VP and D1NAc-VM MSNs cooperatively control NAc dopamine balance and reward-aversion states.

Anthrax toxins regulate pain signaling and can deliver molecular cargoes into ANTXR2+ DRG sensory neurons

Nature neuroscience

2021 Dec 20

Yang, NJ;Isensee, J;Neel, DV;Quadros, AU;Zhang, HB;Lauzadis, J;Liu, SM;Shiers, S;Belu, A;Palan, S;Marlin, S;Maignel, J;Kennedy-Curran, A;Tong, VS;Moayeri, M;Röderer, P;Nitzsche, A;Lu, M;Pentelute, BL;Brüstle, O;Tripathi, V;Foster, KA;Price, TJ;Collier, RJ;Leppla, SH;Puopolo, M;Bean, BP;Cunha, TM;Hucho, T;Chiu, IM;
PMID: 34931070 | DOI: 10.1038/s41593-021-00973-8

Bacterial products can act on neurons to alter signaling and function. In the present study, we found that dorsal root ganglion (DRG) sensory neurons are enriched for ANTXR2, the high-affinity receptor for anthrax toxins. Anthrax toxins are composed of protective antigen (PA), which binds to ANTXR2, and the protein cargoes edema factor (EF) and lethal factor (LF). Intrathecal administration of edema toxin (ET (PA + EF)) targeted DRG neurons and induced analgesia in mice. ET inhibited mechanical and thermal sensation, and pain caused by formalin, carrageenan or nerve injury. Analgesia depended on ANTXR2 expressed by Nav1.8+ or Advillin+ neurons. ET modulated protein kinase A signaling in mouse sensory and human induced pluripotent stem cell-derived sensory neurons, and attenuated spinal cord neurotransmission. We further engineered anthrax toxins to introduce exogenous protein cargoes, including botulinum toxin, into DRG neurons to silence pain. Our study highlights interactions between a bacterial toxin and nociceptors, which may lead to the development of new pain therapeutics.

Co-emergence of cardiac and gut tissues promotes cardiomyocyte maturation within human iPSC-derived organoids

Cell stem cell

2021 Dec 02

Silva, AC;Matthys, OB;Joy, DA;Kauss, MA;Natarajan, V;Lai, MH;Turaga, D;Blair, AP;Alexanian, M;Bruneau, BG;McDevitt, TC;
PMID: 34861147 | DOI: 10.1016/j.stem.2021.11.007

During embryogenesis, paracrine signaling between tissues in close proximity contributes to the determination of their respective cell fate(s) and development into functional organs. Organoids are in vitro models that mimic organ formation and cellular heterogeneity, but lack the paracrine input of surrounding tissues. Here, we describe a human multilineage iPSC-derived organoid that recapitulates cooperative cardiac and gut development and maturation, with extensive cellular and structural complexity in both tissues. We demonstrate that the presence of endoderm tissue (gut/intestine) in the organoids contributed to the development of cardiac tissue features characteristic of stages after heart tube formation, including cardiomyocyte expansion, compartmentalization, enrichment of atrial/nodal cells, myocardial compaction, and fetal-like functional maturation. Overall, this study demonstrates the ability to generate and mature cooperative tissues originating from different germ lineages within a single organoid model, an advance that will further the examination of multi-tissue interactions during development, physiological maturation, and disease.

SARS-CoV-2 infects the human kidney and drives fibrosis in kidney organoids

Cell Stem Cell

2021 Dec 01

Jansen, J;Reimer, K;Nagai, J;Varghese, F;Overheul, G;de Beer, M;Roverts, R;Daviran, D;Fermin, L;Willemsen, B;Beukenboom, M;Djudjaj, S;von Stillfried, S;van Eijk, L;Mastik, M;Bulthuis, M;Dunnen, W;van Goor, H;Hillebrands, J;Triana, S;Alexandrov, T;Timm, M;Tideman van den Berge, B;van den Broek, M;Nlandu, Q;Heijnert, J;Bindels, E;Hoogenboezem, R;Mooren, F;Kuppe, C;Miesen, P;Grünberg, K;Ijzermans, T;Steenbergen, E;Czogalla, J;Schreuder, M;Sommerdijk, N;Akiva, A;Boor, P;Puelles, V;Floege, J;Huber, T;van Rij, R;Costa, I;Schneider, R;Smeets, B;Kramann, R;
| DOI: 10.1016/j.stem.2021.12.010

Kidney failure is frequently observed during and after COVID-19, but it remains elusive whether this is a direct effect of the virus. Here, we report that SARS-CoV-2 directly infects kidney cells and is associated with increased tubule-interstitial kidney fibrosis in patient autopsy samples. To study direct effects of the virus on the kidney independent of systemic effects of COVID-19, we infected human induced pluripotent stem cell-derived kidney organoids with SARS-CoV-2. Single cell RNA-sequencing indicated injury and dedifferentiation of infected cells with activation of pro-fibrotic signaling pathways. Importantly, SARS-CoV-2 infection also led to increased collagen 1 protein expression in organoids. A SARS-CoV-2 protease inhibitor was able to ameliorate the infection of kidney cells by SARS-CoV-2. Our results suggest that SARS-CoV-2 can directly infect kidney cells and induce cell injury with subsequent fibrosis. These data could explain both acute kidney injury in COVID-19 patients and the development of chronic kidney disease in Long-COVID.

Dynamic lipid turnover in photoreceptors and retinal pigment epithelium throughout life

Progress in retinal and eye research

2021 Dec 28

Lewandowski, D;Sander, CL;Tworak, A;Gao, F;Xu, Q;Skowronska-Krawczyk, D;
PMID: 34971765 | DOI: 10.1016/j.preteyeres.2021.101037

The retinal pigment epithelium-photoreceptor interphase is renewed each day in a stunning display of cellular interdependence. While photoreceptors use photosensitive pigments to convert light into electrical signals, the RPE supports photoreceptors in their function by phagocytizing shed photoreceptor tips, regulating the blood retina barrier, and modulating inflammatory responses, as well as regenerating the 11-cis-retinal chromophore via the classical visual cycle. These processes involve multiple protein complexes, tightly regulated ligand-receptors interactions, and a plethora of lipids and protein-lipids interactions. The role of lipids in maintaining a healthy interplay between the RPE and photoreceptors has not been fully delineated. In recent years, novel technologies have resulted in major advancements in understanding several facets of this interplay, including the involvement of lipids in phagocytosis and phagolysosome function, nutrient recycling, and the metabolic dependence between the two cell types. In this review, we aim to integrate the complex role of lipids in photoreceptor and RPE function, emphasizing the dynamic exchange between the cells as well as discuss how these processes are affected in aging and retinal diseases.

Advances in Biomaterial‐Based Spinal Cord Injury Repair

Advanced Functional Materials

2021 Dec 01

Shen, H;Fan, C;You, Z;Xiao, Z;Zhao, Y;Dai, J;
| DOI: 10.1002/adfm.202110628

Spinal cord injury (SCI) often leads to the loss of motor and sensory functions and is a major challenge in neurological clinical practice. Understanding the pathophysiological changes and the inhibitory microenvironment is crucial to enable the identification of potential mechanisms for functional restoration and to provide guidance for the development of efficient treatment and repair strategies. To date, the implantation of specifically functionalized biomaterials in the lesion area has been shown to help promote axon regeneration and facilitate neuronal circuit generation by remolding SCI microenvironments. Moreover, structural and functional restoration of the spinal cord through the transplantation of naive spinal cord tissue grafts from adult donors, artificial spinal cord-like tissue developed from tissue engineering, and 3D printing will open up new avenues for SCI treatment. This review focuses on the dynamic pathophysiological changes in SCI microenvironments, biomaterials for SCI repairs, strategies for restoring spinal cord structure and function, experimental animal models, regenerative mechanisms, and clinical studies for SCI repair. The current status, recent advances, challenges, and prospects of scaffold-based SCI repair from basic to clinical settings are summarized and discussed, to provide a reference that will help to guide the future exploration and development of spinal cord regeneration strategies.

Long-term stability and protection efficacy of the RBD-targeting COVID-19 mRNA vaccine in nonhuman primates

Signal transduction and targeted therapy

2021 Dec 24

Zhao, H;Wang, TC;Li, XF;Zhang, NN;Li, L;Zhou, C;Deng, YQ;Cao, TS;Yang, G;Li, RT;Huang, YJ;Li, YG;Zhang, YM;Li, FX;Zhou, YR;Jiang, YH;Lu, XS;Sun, SH;Cheng, ML;Gu, KP;Zhang, M;Ma, QQ;Yang, X;Ying, B;Gao, YW;Qin, CF;
PMID: 34952914 | DOI: 10.1038/s41392-021-00861-4

Messenger RNA (mRNA) vaccine technology has shown its power in preventing the ongoing COVID-19 pandemic. Two mRNA vaccines targeting the full-length S protein of SARS-CoV-2 have been authorized for emergency use. Recently, we have developed a lipid nanoparticle-encapsulated mRNA (mRNA-LNP) encoding the receptor-binding domain (RBD) of SARS-CoV-2 (termed ARCoV), which confers complete protection in mouse model. Herein, we further characterized the protection efficacy of ARCoV in nonhuman primates and the long-term stability under normal refrigerator temperature. Intramuscular immunization of two doses of ARCoV elicited robust neutralizing antibodies as well as cellular response against SARS-CoV-2 in cynomolgus macaques. More importantly, ARCoV vaccination in macaques significantly protected animals from acute lung lesions caused by SARS-CoV-2, and viral replication in lungs and secretion in nasal swabs were completely cleared in all animals immunized with low or high doses of ARCoV. No evidence of antibody-dependent enhancement of infection was observed throughout the study. Finally, extensive stability assays showed that ARCoV can be stored at 2-8 °C for at least 6 months without decrease of immunogenicity. All these promising results strongly support the ongoing clinical trial.

Tamoxifen and clomiphene inhibit SARS-CoV-2 infection by suppressing viral entry

Signal transduction and targeted therapy

2021 Dec 21

Zu, S;Luo, D;Li, L;Ye, Q;Li, RT;Wang, Y;Gao, M;Yang, H;Deng, YQ;Cheng, G;
PMID: 34934049 | DOI: 10.1038/s41392-021-00853-4

APC7 mediates ubiquitin signaling in constitutive heterochromatin in the developing mammalian brain

Molecular cell

2021 Dec 16

Ferguson, CJ;Urso, O;Bodrug, T;Gassaway, BM;Watson, ER;Prabu, JR;Lara-Gonzalez, P;Martinez-Chacin, RC;Wu, DY;Brigatti, KW;Puffenberger, EG;Taylor, CM;Haas-Givler, B;Jinks, RN;Strauss, KA;Desai, A;Gabel, HW;Gygi, SP;Schulman, BA;Brown, NG;Bonni, A;
PMID: 34942119 | DOI: 10.1016/j.molcel.2021.11.031

Neurodevelopmental cognitive disorders provide insights into mechanisms of human brain development. Here, we report an intellectual disability syndrome caused by the loss of APC7, a core component of the E3 ubiquitin ligase anaphase promoting complex (APC). In mechanistic studies, we uncover a critical role for APC7 during the recruitment and ubiquitination of APC substrates. In proteomics analyses of the brain from mice harboring the patient-specific APC7 mutation, we identify the chromatin-associated protein Ki-67 as an APC7-dependent substrate of the APC in neurons. Conditional knockout of the APC coactivator protein Cdh1, but not Cdc20, leads to the accumulation of Ki-67 protein in neurons in vivo, suggesting that APC7 is required for the function of Cdh1-APC in the brain. Deregulated neuronal Ki-67 upon APC7 loss localizes predominantly to constitutive heterochromatin. Our findings define an essential function for APC7 and Cdh1-APC in neuronal heterochromatin regulation, with implications for understanding human brain development and disease.

The CD22-IGF2R interaction is a therapeutic target for microglial lysosome dysfunction in Niemann-Pick type C

Science translational medicine

2021 Dec 01

Pluvinage, JV;Sun, J;Claes, C;Flynn, RA;Haney, MS;Iram, T;Meng, X;Lindemann, R;Riley, NM;Danhash, E;Chadarevian, JP;Tapp, E;Gate, D;Kondapavulur, S;Cobos, I;Chetty, S;Pașca, AM;Pașca, SP;Berry-Kravis, E;Bertozzi, CR;Blurton-Jones, M;Wyss-Coray, T;
PMID: 34851695 | DOI: 10.1126/scitranslmed.abg2919

[Figure: see text].

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	Description
sense Example: Hs-LAG3-sense	Standard probes for RNA detection are in antisense. Sense probe is reverse complent to the corresponding antisense probe.
Intron# Example: Mm-Htt-intron2	Probe targets the indicated intron in the target gene, commonly used for pre-mRNA detection
Pool/Pan Example: Hs-CD3-pool (Hs-CD3D, Hs-CD3E, Hs-CD3G)	A mixture of multiple probe sets targeting multiple genes or transcripts
No-XSp Example: Hs-PDGFB-No-XMm	Does not cross detect with the species (Sp)
XSp Example: Rn-Pde9a-XMm	designed to cross detect with the species (Sp)
O# Example: Mm-Islr-O1	Alternative design targeting different regions of the same transcript or isoforms
CDS Example: Hs-SLC31A-CDS	Probe targets the protein-coding sequence only
EnEm	Probe targets exons n and m
En-Em	Probe targets region from exon n to exon m
Retired Nomenclature
tvn Example: Hs-LEPR-tv1	Designed to target transcript variant n
ORF Example: Hs-ACVRL1-ORF	Probe targets open reading frame
UTR Example: Hs-HTT-UTR-C3	Probe targets the untranslated region (non-protein-coding region) only
5UTR Example: Hs-GNRHR-5UTR	Probe targets the 5' untranslated region only
3UTR Example: Rn-Npy1r-3UTR	Probe targets the 3' untranslated region only
Pan Example: Pool	A mixture of multiple probe sets targeting multiple genes or transcripts

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