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158


A neonatal mouse model characterizes transmissibility of SARS-CoV-2 variants and reveals a role for ORF8

Rodriguez-Rodriguez, Bruno A; Ciabattoni, Grace O; Valero-Jimenez, Ana M; Crosse, Keaton M; Schinlever, Austin R; Galvan, Joaquin J Rodriguez; Duerr, Ralf; Yeung, Stephen T; McGrath, Marisa E; Loomis, Cynthia; Khanna, Kamal M; Desvignes, Ludovic; Frieman, Matthew F; Ortigoza, Mila B; Dittmann, Meike
Small animal models have been a challenge for the study of SARS-CoV-2 transmission, with most investigators using golden hamsters or ferrets 1,2 . Mice have the advantages of low cost, wide availability, less regulatory and husbandry challenges, and the existence of a versatile reagent and genetic toolbox. However, adult mice do not transmit SARS-CoV-2 3 . Here we establish a model based on neonatal mice that allows for transmission of clinical SARS-CoV-2 isolates. We characterize tropism, respiratory tract replication and transmission of ancestral WA-1 compared to variants alpha (B.1.1.7), beta (B.1.351), gamma (P.1), delta (B.1.617.2) and omicron (B.1.1.529). We identify inter-variant differences in timing and magnitude of infectious particle shedding from index mice, both of which shape transmission to contact mice. Furthermore, we characterize two recombinant SARS-CoV-2 lacking either the ORF6 or ORF8 host antagonists. The removal of ORF8 shifts viral replication towards the lower respiratory tract, resulting in significantly delayed and reduced transmission. Our results demonstrate the potential of our neonatal mouse model to characterize viral and host determinants of SARS-CoV-2 transmission, while revealing for the first time a role for an accessory protein this context.
PMCID:9558433
PMID: 36238716
ISSN: 2692-8205
CID: 5390862

Genomic and transcriptomic analyses of NF1-mutant melanoma identify potential targeted approach for treatment

Jour, George; Illa-Bochaca, Irineu; Ibrahim, Milad; Donnelly, Douglas; Zhu, Kelsey; Vega-Saenz de Miera, Eleazar; Vasudevaraja, Varshini; Mezzano, Valeria; Ramswami, Sitharam; Yeh, Yu-Hsin; Winskill, Carolyn; Betensky, Rebecca A; Mehnert, Janice; Osman, Iman
There is currently no targeted therapy to treat NF1-mutant melanomas. Herein, we compared the genomic and transcriptomic signatures of NF1-mutant and NF1-WT melanoma to reveal potential treatment targets for this subset of patients. Genomic alterations were verified using qPCR, and differentially expressed genes were independently validated using TCGA data, and immunohistochemistry (IHC). Digital spatial profiling (DSP) with multiplex IHC and immunofluorescence (IF) were used to validate the signatures. The efficacy of combinational regimens driven by these signatures was tested through in vitro assays using low-passage cell lines. Pathogenic NF1 mutations were identified in 27% cases. NF1-mutant melanoma expressed higher proliferative markers MK167 and CDC20 compared to NF1-WT (P=0.008), which was independently validated both in the TCGA dataset (P=0.01, P=0.03) and with IHC (P=0.013, P=0.036), respectively. DSP analysis showed upregulation of LY6E within the tumor cells [FDR<0.01, lg2FC>1], confirmed with multiplex IF showing co-localization of LY6E in melanoma cells. The combination of MEK and CDC20 co-inhibition induced both cytotoxic and cytostatic effects, decreasing CDC20 expression in multiple NF1-MUT cell lines. In conclusion, NF1-mutant melanoma is associated with a distinct genomic and transcriptomic profile. Our data support investigating CDC20 inhibition with MAPK pathway inhibitors as a targeted regimen in this melanoma subtype.
PMID: 35988589
ISSN: 1523-1747
CID: 5338052

Single-cell RNA sequencing reveals the effects of chemotherapy on human pancreatic adenocarcinoma and its tumor microenvironment

Werba, Gregor; Weissinger, Daniel; Kawaler, Emily A; Zhao, Ende; Kalfakakou, Despoina; Dhara, Surajit; Wang, Lidong; Lim, Heather B; Oh, Grace; Jing, Xiaohong; Beri, Nina; Khanna, Lauren; Gonda, Tamas; Oberstein, Paul; Hajdu, Cristina; Loomis, Cynthia; Heguy, Adriana; Sherman, Mara H; Lund, Amanda W; Welling, Theodore H; Dolgalev, Igor; Tsirigos, Aristotelis; Simeone, Diane M
The tumor microenvironment (TME) in pancreatic ductal adenocarcinoma (PDAC) is a complex ecosystem that drives tumor progression; however, in-depth single cell characterization of the PDAC TME and its role in response to therapy is lacking. Here, we perform single-cell RNA sequencing on freshly collected human PDAC samples either before or after chemotherapy. Overall, we find a heterogeneous mixture of basal and classical cancer cell subtypes, along with distinct cancer-associated fibroblast and macrophage subpopulations. Strikingly, classical and basal-like cancer cells exhibit similar transcriptional responses to chemotherapy and do not demonstrate a shift towards a basal-like transcriptional program among treated samples. We observe decreased ligand-receptor interactions in treated samples, particularly between TIGIT on CD8 + T cells and its receptor on cancer cells, and identify TIGIT as the major inhibitory checkpoint molecule of CD8 + T cells. Our results suggest that chemotherapy profoundly impacts the PDAC TME and may promote resistance to immunotherapy.
PMCID:9925748
PMID: 36781852
ISSN: 2041-1723
CID: 5427092

Latent Transforming Growth Factor β Binding Protein 3 Controls Adipogenesis

Singh, Karan; Sachan, Nalani; Ene, Taylor; Dabovic, Branka; Rifkin, Daniel
Transforming growth factor-beta (TGFβ) is released from cells as part of a trimeric latent complex consisting of TGFβ, the TGFβ propeptides, and either a latent TGFβ binding protein (LTBP) or glycoprotein-A repetitions predominant (GARP) protein. LTBP1 and 3 modulate latent TGFβ function with respect to secretion, matrix localization, and activation and, therefore, are vital for the proper function of the cytokine in a number of tissues. TGFβ modulates stem cell differentiation into adipocytes (adipogenesis), but the potential role of LTBPs in this process has not been studied. We observed that 72 h post adipogenesis initiation Ltbp1, 2, and 4 expression levels decrease by 74-84%, whereas Ltbp3 expression levels remain constant during adipogenesis. We found that LTBP3 silencing in C3H/10T1/2 cells reduced adipogenesis, as measured by the percentage of cells with lipid vesicles and the expression of the transcription factor peroxisome proliferator-activated receptor gamma (PPARγ). Lentiviral mediated expression of an Ltbp3 mRNA resistant to siRNA targeting rescued the phenotype, validating siRNA specificity. Knockdown (KD) of Ltbp3 expression in 3T3-L1, M2, and primary bone marrow stromal cells (BMSC) indicated a similar requirement for Ltbp3. Epididymal and inguinal white adipose tissue fat pad weights of Ltbp3-/- mice were reduced by 62% and 57%, respectively, compared to wild-type mice. Inhibition of adipogenic differentiation upon LTBP3 loss is mediated by TGFβ, as TGFβ neutralizing antibody and TGFβ receptor I kinase blockade rescue the LTBP3 KD phenotype. These results indicate that LTBP3 has a TGFβ-dependent function in adipogenesis both in vitro and possibly in vivo.
PMID: 35933071
ISSN: 1569-1802
CID: 5288502

Spatial Transcriptomics Stratifies Health and Psoriatic Disease Severity by Emergent Cellular Ecosystems [Meeting Abstract]

Castillo, R; Sidhu, I; Dolgalev, I; Subudhi, I; Yan, D; Konieczny, P; Hsieh, B; Chu, T; Haberman, R; Selvaraj, S; Shiomi, T; Medina, R; Girija, P V; Heguy, A; Loomis, C; Chiriboga, L; Meehan, S; Ritchlin, C; De, La Luz Garcia-Hernandez M; Carucci, J; Neimann, A; Naik, S; Scher, J
Background/Purpose: The skin is recognized as a window into the immunopathogenic mechanisms driving the vast phenotypic spectrum of psoriatic disease.
Method(s): To better decipher the cellular landscape of both healthy and psoriatic skin, we employed spatial transcriptomics (ST), a ground-breaking technology that precisely maps gene expression from histologically-intact tissue sections (Fig. 1A).
Result(s): Findings gleaned from computationally integrating our 23 matched lesional and non-lesional psoriatic and 7 healthy control samples with publicly-available single-cell ribonucleic acid (RNA) sequencing datasets established the ability of ST to recapitulate the tissue architecture of both healthy and inflamed skin (Fig. 1B) and highlighted topographic shifts in the immune cell milieu, from a predominantly perifollicular distribution in steady-state skin to the papillary and upper reticular dermis in psoriatic lesional skin. We also incidentally discovered that ST's ability to ascertain gene expression patterns from intact tissue rendered it particularly conducive to studying the transcriptome of lipid-laden cells such as dermal adipose tissue and sebaceous glands (Fig. 1C), whose expression profiles are typically lost in the process of tissue handling and dissociation for bulk and single-cell RNA seq. Unbiased clustering of pooled healthy and psoriatic samples identified two epidermal clusters and one dermal cluster that were differentially expanded in psoriatic lesional skin (p values <=0.05) (Fig. 1D); pathway analysis of these clusters revealed enrichment of known psoriatic inflammatory pathways (Fig. 1E). Unsupervised classification of skin-limited psoriasis and psoriatic arthritis samples revealed stratification by cutaneous disease severity or Psoriasis Area and Severity Index (PASI) score and not by presence or absence of concomitant systemic/synovial disease (Fig. 1F). Remarkably, this PASI-dependent segregation was also evident in distal, non-lesional samples and was driven by the dermal macrophage and fibroblast cluster and the lymphatic endothelium (Fig. 2A). Inquiry into the mechanistic drivers of this observed stratification yielded enrichment of pathways associated with key T cell and innate immune cell activation, B cells, and metabolic dysfunction (Fig. 2B). Finally, tissue scale computational cartography of gene expression revealed differences in regional enrichment of specific cell types across phenotypic groups, most notably upward extension of fibroblasts to the upper dermis in both lesional and non-lesional samples from mild psoriasis and restriction to the lower dermis in the moderate-to-severe psoriasis samples (Fig. 2C), suggesting that disease severity stratification may be driven by emergent cellular ecosystems in the upper dermis. Fig. 1. (A) Schematic of spatial transcriptomics study workflow. Four mm skin punch biopsies were obtained from healthy volunteers (n=3) and lesional and non-lesional skin from patients with psoriatic disease (n=11). Ten micron-thick sections were then placed on capture areas on the ST microarray slide, each containing molecularly barcoded, spatially encoded spots with a diameter of 50 microns and a center-to-center distance of 100 microns. (B) Side-by-side comparison of a hematoxylin-eosin (H&E) stained section of representative healthy, lesional, and non-lesional skin samples and the corresponding ST plots showed concordance of unbiased gene expression-based clustering with histologic tissue architecture. (C) Pathway analysis of the adipose cluster in healthy skin (cluster 2) confirmed upregulation of lipid-associated processes. Inset: Spots corresponding to the adipose cluster highlighted in yellow. (D) Wilcoxon rank sum test (results displayed as box plots) yielded statistically significant expansion of three clusters in lesional skin compared to both non-lesional and healthy skin-inflamed suprabasal epidermis (cluster 4), epidermis 2 (cluster 7), and inflamed dermis (cluster 10). HC=healthy control, L=lesional psoriatic skin, NL=non-lesional psoriatic skin. (E) Pathways enriched in clusters 4, 7, and 10. (F) Principal component analysis (PCA) plots demonstrating segregation of samples by severity of cutaneous disease in both lesional and non-lesional samples along the first principal component (right) that was not seen in the samples categorized according to presence or absence of arthritis (left). PsA=psoriatic arthritis, PsO=skin-limited psoriasis. Fig. 2. (A) PCA of lesional and non-lesional samples colored by disease severity in spatial clusters 1 (left) and 12 (right) revealed more discrete clustering. (B) Pathways significantly enriched in clusters 1 (left) and 12 (right) showed enrichment of pathways associated with key T cell and innate immune cell activation, B cells, and metabolic dysfunction (highlighted in red). (C) SpaceFold one dimension projection of cell distribution from an independently-generated single-cell RNA seq data set on aggregated ST lesional and non-lesional samples from mild (PASI-low) and moderate-severe (PASI-high) samples. Y-axis represents tissue position, starting with the lower dermis marked as position 0 to suprabasal epidermis marked as position 1. Dashed line represents epidermal-dermal junction, discerned by cell types in the basal epidermal layer (melanocytes and Langerhans cells). Fibroblast signatures (red arrows) were largely relegated to the lower dermis in the PASI-high group, but extended to the upper dermis in the PASI-low group. This striking difference in fibroblast localization was also noted in non-lesional PASI-high vs. PASI-low groups. In addition to fibroblasts, lymphatic, endothelial, myeloid, and T cells signatures (black arrows) were also observed in the upper dermis of lesional PASI-low samples, but were much lower in the dermis of PASI-low non-lesional and all samples in the PASI-high group. Interfollicular epidermis (IFE), hair follicle and infundibulum (HF/IFN), n= number of individual biopsies.
Conclusion(s): Thus, we have been able to successfully leverage ST integrated with independently-generated single-cell RNA seq data to spatially define the emergent cellular ecosystems of healthy and matched psoriatic lesional and non-lesional skin and in so doing, demonstrated the value of ST in unearthing the genetic groundwork at both the site of inflammation and in distal, clinically-uninvolved skin
EMBASE:639965553
ISSN: 2326-5205
CID: 5513112

Interleukin-17 governs hypoxic adaptation of injured epithelium

Konieczny, Piotr; Xing, Yue; Sidhu, Ikjot; Subudhi, Ipsita; Mansfield, Kody P; Hsieh, Brandon; Biancur, Douglas E; Larsen, Samantha B; Cammer, Michael; Li, Dongqing; Landén, Ning Xu; Loomis, Cynthia; Heguy, Adriana; Tikhonova, Anastasia N; Tsirigos, Aristotelis; Naik, Shruti
Mammalian cells autonomously activate hypoxia-inducible transcription factors (HIFs) to ensure survival in low-oxygen environments. We report here that injury-induced hypoxia is insufficient to trigger HIF1α in damaged epithelium. Instead, multimodal single-cell and spatial transcriptomics analyses and functional studies reveal that retinoic acid-related orphan receptor γt+ (RORγt+) γδ T cell-derived interleukin-17A (IL-17A) is necessary and sufficient to activate HIF1α. Protein kinase B (AKT) and extracellular signal-regulated kinase 1/2 (ERK1/2) signaling proximal of IL-17 receptor C (IL-17RC) activates mammalian target of rapamycin (mTOR) and consequently HIF1α. The IL-17A-HIF1α axis drives glycolysis in wound front epithelia. Epithelial-specific loss of IL-17RC, HIF1α, or blockade of glycolysis derails repair. Our findings underscore the coupling of inflammatory, metabolic, and migratory programs to expedite epithelial healing and illuminate the immune cell-derived inputs in cellular adaptation to hypoxic stress during repair.
PMID: 35709248
ISSN: 1095-9203
CID: 5268732

High Systemic Type I Interferon Activity is Associated with Active Class III/IV Lupus Nephritis

Iwamoto, Taro; Dorschner, Jessica M; Selvaraj, Shanmugapriya; Mezzano, Valeria; Jensen, Mark A; Vsetecka, Danielle; Amin, Shreyasee; Makol, Ashima; Osborn, Thomas; Moder, Kevin; Chowdhary, Vaidehi R; Izmirly, Peter; Belmont, H Michael; Clancy, Robert M; Buyon, Jill P; Wu, Ming; Loomis, Cynthia A; Niewold, Timothy B
OBJECTIVE:Previous studies suggest a link between high serum type I interferon (IFN) and lupus nephritis (LN). We determined whether serum IFN activity is associated with subtypes of LN and studied renal tissues and cells to understand the impact of IFN in LN. METHODS:). Podocyte cell line gene expression was measured by real-time PCR. RESULTS:expression was not closely co-localized with pDCs. IFN directly activated podocyte cell lines to induce chemokines and proapoptotic molecules. CONCLUSION/CONCLUSIONS:Systemic high IFN is involved in the pathogenesis of severe LN. We do not find co-localization of pDCs with IFN signature in renal tissue, and instead observe the greatest intensity of IFN signature in glomerular areas, which could suggest a blood source of IFN.
PMID: 34782453
ISSN: 0315-162x
CID: 5049012

Artificial intelligence and deep learning to map immune cell types in inflamed human tissue

Van Buren, Kayla; Li, Yi; Zhong, Fanghao; Ding, Yuan; Puranik, Amrutesh; Loomis, Cynthia A; Razavian, Narges; Niewold, Timothy B
Biopsies of inflammatory tissue contain a complex network of interacting cells, orchestrating the immune or autoimmune response. While standard histological examination can identify relationships, it is clear that a great amount of data on each slide is not quantitated or categorized in standard microscopic examinations. To deal with the huge amount of data present in biopsy tissue in an unbiased and comprehensive way, we have developed a deep learning algorithm to identify immune cells in biopsies of inflammatory lesions. We focused on T follicular helper (Tfh) cell subsets and B cells in dermatomyositis biopsy images. We achieved strong performance on detection and classification of cells, including the rare Tfh cell subsets present in the tissue. This algorithm could be used to perform distance mapping between cell types in tissue, and could be easily adapted to other disease states.
PMID: 35131237
ISSN: 1872-7905
CID: 5175982

Combined Inhibition of SHP2 and CXCR1/2 Promotes Anti-Tumor T Cell Response in NSCLC

Tang, Kwan Ho; Li, Shuai; Khodadadi-Jamayran, Alireza; Jen, Jayu; Han, Han; Guidry, Kayla; Chen, Ting; Hao, Yuan; Fedele, Carmine; Zebala, John A; Maeda, Dean Y; Christensen, James G; Olson, Peter; Athanas, Argus; Loomis, Cynthia A; Tsirigos, Aristotelis; Wong, Kwok-Kin; Neel, Benjamin G
SHP2 inhibitors (SHP2i) alone and in various combinations are being tested in multiple tumors with over-activation of the RAS/ERK pathway. SHP2 plays critical roles in normal cell signaling; hence, SHP2is could influence the tumor microenvironment. We found that SHP2i treatment depleted alveolar and M2-like macrophages, induced tumor-intrinsic CCL5/CXCL10 secretion and promoted B and T lymphocyte infiltration in Kras- and Egfr-mutant non-small cell lung cancer (NSCLC). However, treatment also increased intratumor gMDSCs via tumor-intrinsic, NF-kB-dependent production of CXCR2 ligands. Other RAS/ERK pathway inhibitors also induced CXCR2 ligands and gMDSC influx in mice, and CXCR2 ligands were induced in tumors from patients on KRASG12C-inhibitor trials. Combined SHP2(SHP099)/CXCR1/2(SX682) inhibition depleted a specific cluster of S100a8/9high gMDSCs, generated Klrg1+ CD8+ effector T cells with a strong cytotoxic phenotype but expressing the checkpoint receptor NKG2A, and enhanced survival in Kras- and Egfr-mutant models. Our results argue for testing RAS/ERK pathway/CXCR1/2/NKG2A inhibitor combinations in NSCLC patients.
PMID: 34353854
ISSN: 2159-8290
CID: 4969352

Simultaneous checkpoint inhibition and immune cell activation that is safely localized to solidtumors [Meeting Abstract]

Richieri, R A; Narula, N; Loomis, C A; Mezzano, V; Billimek, J; Reynolds, G T; Reutelingsperger, C; Zijlstra, A; Parseghian, M H
Unlike other checkpoint inhibitors, our targeted immunotherapeutic localizes to any solid tumor and simultaneouslyshields an agent of immuno suppression while presenting a signal for immunostimulation. Phosphatidylserine (PS)exposure on the extracellular surface of living tumor cells and their vasculatures provides one avenue by which thetumor microenvironment promotes immunosuppression. Extracellular surface PS is inherent to a tumor and itsvasculature, even for inoperable tumors, and its expression cannot be mutated nor affected by acquired drugresistance. Annexin A5 (AnxA5) is a direct, high-affinity PS-binding protein that localizes to cells with PS exposed onthe outer plasma membrane. In our studies, we conjugated a proprietary modified AnxA5, lacking cellularinternalization, to TNFalpha (AnxA5 -TNFalpha) to convert the immunosuppresive environs of a murine 4T1 triplenegative breast cancer (TNBC) into an immunostimulated one. This strategy localized the immune response to the tumor and minimized side effects, as evidenced by a lack of toxicity for up to 7 days in non-tumor bearing Balb/cfemale mice given up to 1 mg/kg. Proper assembly and functionality of AnxA5 -TNFalpha was verified simultaneouslyby ellipsometry, an optical technique similar to plasmon resonance. Fully assembled constructs were tested forbinding to PS coated slides. The degree of light polarization is proportional to the amount of PS bound by the AnxA5complex. Samples could be further incubated with TNF receptors to verify TNFalpha activity. Based on dose escalationstudies in 4T1 tumor-bearing mice where the TNBC tumors were grown in the mammary fat pads, optimal dosages were determined for AnxA5 -TNFalpha (18 mug) and AnxA5 alone as a control (180 mug). These doses were furthertested in a 4T1 growth inhibition study. Tumor size was tracked by caliper in two groups of mice (n=5/group)receiving drug treatment on days 12, 14 and 16 and a repeated measures ANOVA was conducted onmeasurements taken before, during and post-treatment. While median tumor size did not differ between control and drug treatment groups during the pre-treatment interval (p=0.84), there was a significant difference post-treatment(p<0.001) with mice receiving AnxA5 -TNFalpha having much smaller TNBC tumors. Tumors from the study were embedded in paraffin, sectioned (5 mum) and the overall immune cell content determined by H&E staining. Once it was evident there was a greater quantity of immune cells in AnxA5 -TNFalpha treated tumors vs. controls, sections were stained with validated antibodies to identify and count the immunoactivated T-cells, NK-cells and macrophages. There was a 3X greater mean percentage of CD8 and CD4 T-cells in mice receiving drug vs. control(p=0.03) along with 2.5X and 5X increases in NK-cells and M1 immunoactive macrophages, respectively.
Conclusion(s): Our AnxA5 -TNFalpha inhibits the PS inhibitor while simultaneously activating TNF activators!
EMBASE:637180376
ISSN: 2326-6074
CID: 5158452