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The four cell lines express <t>IFNLR1</t> receptor subunit. (A) Confocal microscopy image of RPE, astrocytes, microglia and Müller cells. Cells were plated on cover slides for 24h. The cells were then fixed, permeabilized and the IFNLR1 subunit and cell nuclei labeled with AlexaFLuor488 and Hoechst 33342, respectively. (B) Flow cytometry assay for IFNLR1 receptor subunit. Cells were harvested by trypsination and placed 24h under agitation to restore membranous receptor expression. Finally, they were labeled and analyzed as described in Material and Methods.
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The four cell lines express IFNLR1 receptor subunit. (A) Confocal microscopy image of RPE, astrocytes, microglia and Müller cells. Cells were plated on cover slides for 24h. The cells were then fixed, permeabilized and the IFNLR1 subunit and cell nuclei labeled with AlexaFLuor488 and Hoechst 33342, respectively. (B) Flow cytometry assay for IFNLR1 receptor subunit. Cells were harvested by trypsination and placed 24h under agitation to restore membranous receptor expression. Finally, they were labeled and analyzed as described in Material and Methods.

Journal: Frontiers in Immunology

Article Title: Type I and III interferons shape the retinal cytokine network and barrier function in an in vitro model of ocular toxoplasmosis

doi: 10.3389/fimmu.2023.1148037

Figure Lengend Snippet: The four cell lines express IFNLR1 receptor subunit. (A) Confocal microscopy image of RPE, astrocytes, microglia and Müller cells. Cells were plated on cover slides for 24h. The cells were then fixed, permeabilized and the IFNLR1 subunit and cell nuclei labeled with AlexaFLuor488 and Hoechst 33342, respectively. (B) Flow cytometry assay for IFNLR1 receptor subunit. Cells were harvested by trypsination and placed 24h under agitation to restore membranous receptor expression. Finally, they were labeled and analyzed as described in Material and Methods.

Article Snippet: Then, samples were labeled successively with 5µg/mL mouse anti-ZO-1 (Invitrogen, 33-9100) and goat anti-mouse IgG Alexa Fluor 555 (Invitrogen, A32727), or with 5µg/mL mouse anti-IFNLR1 Alexa Fluor 488 (RDsystems, FAB5260G).

Techniques: Confocal Microscopy, Labeling, Flow Cytometry, Expressing

Analysis of IFN protein from HIEs

Journal: Proceedings of the National Academy of Sciences of the United States of America

Article Title: A paradox of transcriptional and functional innate interferon responses of human intestinal enteroids to enteric virus infection

doi: 10.1073/pnas.1615422114

Figure Lengend Snippet: Analysis of IFN protein from HIEs

Article Snippet: The type III IFN receptor was blocked with a polyclonal sheep antibody (25 μg/mL) against the IL28RA subunit (cat. no. AF5260, lot CCXR01; R&D Systems).

Techniques:

IFN response to inactivated HRV. HIEs (j3) were inoculated with replication-competent HRV (MOI of 10 FFU) or with an equivalent amount (in micrograms) of inactivated HRV particles. (A) Expression of type III IFN (IFNL1), type I IFN (IFNB1), and the ISG IFI44L was assessed at 6 hpi by RT-qPCR. Each data bar represents the geometric mean ± 95% CI of the geometric mean (n = 4 technical replicates). Statistical analyses were performed by Mann–Whitney U test. (B) HIEs were infected as described in A and, after 1 h, HIEs were washed and resuspended in medium containing type III IFN receptor-blocking antibody (25 μg/mL anti-IL28RA). The media was analyzed at 20 hpi for secreted IFN-λ1 by ELISA. Data from one representative experiment of two independent experiments is presented as arithmetic mean ± SD of three or four technical replicates.

Journal: Proceedings of the National Academy of Sciences of the United States of America

Article Title: A paradox of transcriptional and functional innate interferon responses of human intestinal enteroids to enteric virus infection

doi: 10.1073/pnas.1615422114

Figure Lengend Snippet: IFN response to inactivated HRV. HIEs (j3) were inoculated with replication-competent HRV (MOI of 10 FFU) or with an equivalent amount (in micrograms) of inactivated HRV particles. (A) Expression of type III IFN (IFNL1), type I IFN (IFNB1), and the ISG IFI44L was assessed at 6 hpi by RT-qPCR. Each data bar represents the geometric mean ± 95% CI of the geometric mean (n = 4 technical replicates). Statistical analyses were performed by Mann–Whitney U test. (B) HIEs were infected as described in A and, after 1 h, HIEs were washed and resuspended in medium containing type III IFN receptor-blocking antibody (25 μg/mL anti-IL28RA). The media was analyzed at 20 hpi for secreted IFN-λ1 by ELISA. Data from one representative experiment of two independent experiments is presented as arithmetic mean ± SD of three or four technical replicates.

Article Snippet: The type III IFN receptor was blocked with a polyclonal sheep antibody (25 μg/mL) against the IL28RA subunit (cat. no. AF5260, lot CCXR01; R&D Systems).

Techniques: Expressing, Quantitative RT-PCR, MANN-WHITNEY, Infection, Blocking Assay, Enzyme-linked Immunosorbent Assay

Effect of receptor-blocking antibodies on rotavirus infectivity and induction of OAS2 transcripts. (A) Stock aliquots of Ito-HRV were incubated with no antibody (control), the anti-type III IFN receptor-blocking antibody, or the anti-type I IFN system antibody mixture for 2 h. To assess the titer of HRV under these conditions, MA104 cells were infected with control Ito-HRV aliquots or antibody-treated Ito-HRV aliquots for 1 h, washed twice, and incubated overnight in DMEM for 18 h. Viral titer was subsequently obtained by FFA. (B) HIEs (j11) suspended in differentiation medium containing 0.5 mg/mL pancreatin were treated with or without blocking antibodies to the type III IFN receptor (anti-IL28RA) or the type I IFN system (anti-type 1 IFN mixture). After 1 h, 100 U/mL of IFN-λ1 or IFN-β1 was added to the HIEs. After 26 h, total RNA was extracted, and the transcriptional response was compared with HIE cultures that were neither antibody-treated nor IFN-treated. Transcript levels of the ISG OAS2 were first normalized to GAPDH levels, and the fold increase was calculated by using the 2−ΔΔCt method. Displayed above the bars is the percent reduction in OAS2 levels between the two groups being compared. Data in A and B are presented as geometric mean ± 95% CI of the geometric mean of three technical replicates. (C) HIEs (j3) were treated with or without blocking antibodies to the type III IFN receptor (anti-IL28RA) or the type I IFN system (anti-type 1 IFN mixture). After 2 h, HIEs were treated with 100 U/mL of IFN-λ1 or IFN-β1 for 24 h. After 24 h, HIEs were washed to remove the antibodies and IFN and inoculated with Ito-HRV (MOI of 0.1). The control samples consisted of HIEs which did not receive antibodies nor IFN before Ito-HRV infection. The increase in infectious virus was calculated by subtracting the titer at 1.5 hpi in the control infection from the titer at 24 hpi in each of the five test groups. Data from one representative experiment of two independent experiments is presented as arithmetic mean ± SEM of four technical replicates. Statistical analyses were performed by Mann–Whitney U test.

Journal: Proceedings of the National Academy of Sciences of the United States of America

Article Title: A paradox of transcriptional and functional innate interferon responses of human intestinal enteroids to enteric virus infection

doi: 10.1073/pnas.1615422114

Figure Lengend Snippet: Effect of receptor-blocking antibodies on rotavirus infectivity and induction of OAS2 transcripts. (A) Stock aliquots of Ito-HRV were incubated with no antibody (control), the anti-type III IFN receptor-blocking antibody, or the anti-type I IFN system antibody mixture for 2 h. To assess the titer of HRV under these conditions, MA104 cells were infected with control Ito-HRV aliquots or antibody-treated Ito-HRV aliquots for 1 h, washed twice, and incubated overnight in DMEM for 18 h. Viral titer was subsequently obtained by FFA. (B) HIEs (j11) suspended in differentiation medium containing 0.5 mg/mL pancreatin were treated with or without blocking antibodies to the type III IFN receptor (anti-IL28RA) or the type I IFN system (anti-type 1 IFN mixture). After 1 h, 100 U/mL of IFN-λ1 or IFN-β1 was added to the HIEs. After 26 h, total RNA was extracted, and the transcriptional response was compared with HIE cultures that were neither antibody-treated nor IFN-treated. Transcript levels of the ISG OAS2 were first normalized to GAPDH levels, and the fold increase was calculated by using the 2−ΔΔCt method. Displayed above the bars is the percent reduction in OAS2 levels between the two groups being compared. Data in A and B are presented as geometric mean ± 95% CI of the geometric mean of three technical replicates. (C) HIEs (j3) were treated with or without blocking antibodies to the type III IFN receptor (anti-IL28RA) or the type I IFN system (anti-type 1 IFN mixture). After 2 h, HIEs were treated with 100 U/mL of IFN-λ1 or IFN-β1 for 24 h. After 24 h, HIEs were washed to remove the antibodies and IFN and inoculated with Ito-HRV (MOI of 0.1). The control samples consisted of HIEs which did not receive antibodies nor IFN before Ito-HRV infection. The increase in infectious virus was calculated by subtracting the titer at 1.5 hpi in the control infection from the titer at 24 hpi in each of the five test groups. Data from one representative experiment of two independent experiments is presented as arithmetic mean ± SEM of four technical replicates. Statistical analyses were performed by Mann–Whitney U test.

Article Snippet: The type III IFN receptor was blocked with a polyclonal sheep antibody (25 μg/mL) against the IL28RA subunit (cat. no. AF5260, lot CCXR01; R&D Systems).

Techniques: Blocking Assay, Infection, Incubation, Control, Virus, MANN-WHITNEY