Cd103 ber act8

Manufactured by BioLegend

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CD103, also known as integrin αE, is a cell surface glycoprotein expressed on a subset of T cells, particularly intraepithelial lymphocytes. It plays a role in the adhesion of T cells to epithelial cells expressing E-cadherin.

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CD103 (40 citations) Ber-ACT8 (9 citations) CD103 (clone Ber-ACT8) (2 citations) Anti‐CD103 (clone Ber‐ACT8; (2 citations)

4 protocols using cd103 ber act8

Multiparameter Flow Cytometry Antibodies

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Fluorochrome conjugated antibodies against human CD45 (clone H130), CD49a (SR84), CD16 (3G8), and CD14 (M5E2) were purchased from BD Biosciences. Antibodies against human CD3 (OKT3), PD-1 (EH12.2H7), Granzyme A (CB9), CD56 (HCD56), CD49a (TS2/T), and CD103 (Ber-ACT8) were purchased from Biolegend. Anti-human CD15 (MMA) was purchased from eBioscience, now Thermo Scientific, and anti-human NKG2A (REA110) was purchased from Miltenyi Biotec. Anti-human CD8α (RPA-T8) and biotinylated anti-human CD3 (UCHT1) were purchased from Tonbo Biosciences. Fluorochrome conjugated antibodies against mouse CD45 (clone 30-F11), CD49a (Ha31/8), CD103 (M290), Ly6G (1A8), F4/80 (T45–2342), CD11b (M1/70), MHC class II A-A/I-E (M5/114/15/2), and CD11c (N418) were purchased from BD Biosciences. Fluorochrome conjugated antibodies against mouse CD3ε (17A2), NK1.1 (PK136), CD19 (D1/CD19), XCR1 (ZET), CD49b (DX5), Ter119 (Ter-119), CD29 (HmB1–1), and EpCAM (G8.8) were purchased from BioLegend. Fluorochrome conjugated antibodies against mouse/human granzyme B (GB11) was purchased from Invitrogen. Fluorochrome conjugated antibodies against mouse CD27 (LG.7F9), CD31 (390), and CD24 (M1/69) were purchased from eBioscience.

Kansler E.R., Dadi S., Krishna C., Nixon B.G., Stamatiades E.G., Liu M., Kuo F., Zhang J., Zhang X., Capistrano K., Blum K.A., Weiss K., Kedl R.M., Cui G., Ikuta K., Chan T.A., Leslie C.S., Hakimi A.A, & Li M.O. (2022). Cytotoxic Innate Lymphoid Cells Sense Cancer Cell-Expressed Interleukin-15 to Suppress Human and Murine Malignancies. Nature immunology, 23(6), 904-915.

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Flow Cytometry Protocol for Tumor-Infiltrating Lymphocyte Analysis

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Flow cytometry was performed using CytoFLEX (Beckman Coulter, Brea, CA, USA). Data were analyzed using FlowJo software (Tree Star, Ashland, OR, USA). For immunolabeling TILs, fluorophore-conjugated monoclonal antibodies against the following proteins were used: CD8 (RPA-T8, Cat# 301048, Biolegend, San Diego, CA, USA, 1:50), CD3 (SK7, Cat# 344808, Biolegend, San Diego, CA, USA, 1:100), PD-1 (EH12.2H7, Cat# 329933, Biolegend, San Diego, CA, USA, 1:20), CD103 (Ber-ACT8, Cat# 350230, Biolegend, San Diego, CA, USA, 1:20), CD39 (A1, Cat# 328210, Biolegend, San Diego, CA, USA, 1:20), GZMB (QA16A02, Cat# 372214, Biolegend, San Diego, CA, USA, 1:50), and CD4 (RPA-T4, Cat# 560837, BD Biosciences, San Diego, CA, USA, 1:50). The LIVE/DEAD Fixable Near-IR Dead Cell Stain Kit was from Invitrogen (L34973, Waltham, Massachusetts, USA, 1:100). The sequential gating strategies used for analysis for data obtained from flow cytometry are described in Supplementary Fig. S15.
For t-distributed stochastic neighbor embedding (tSNE) visualization of flow cytometry data, we used three samples for each group (EGFR-WT and EGFR-MT). Each sample was down-sampled to 7000 randomly selected CD3⁺ live and singlet-gated cells, yielding 42,000 cells. A tSNE plot for the merged 42,000 cells was constructed using FlowJo (v10.6.2) with default settings (3000 iterations and perplexity = 100).

Cho J.W., Park S., Kim G., Han H., Shim H.S., Shin S., Bae Y.S., Park S.Y., Ha S.J., Lee I, & Kim H.R. (2021). Dysregulation of TFH-B-TRM lymphocyte cooperation is associated with unfavorable anti-PD-1 responses in EGFR-mutant lung cancer. Nature Communications, 12, 6068.

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T cell activation and phenotyping

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CD3+ T cells were isolated from PBMC as above and incubated for 24h either unstimulated or with 1μg/ml CD3 and CD28 antibodies (BD Biosciences), together with 10ng/ml IL-1β or 100ng/ml truncated IL-36α, β or γ. Cultures were subsequently prepared for qRT-PCR or flow cytometry. Cells were washed in FACS buffer (PBS+0.5%BSA+0.1%NaN₃) then stained with antibodies against CD3 (clone S4.1, Invitrogen), CD4 (OKT-4, eBioscience), CD8 (SK1, BD), CLA (HECA-452, Biolegend), CD103 (Ber-ACT8, Biolegend), CD25 (BC96, Biolegend), CD69 (FN50, Biolegend), CD54 (HCD54, Biolegend) and appropriate isotype-matched control antibodies for 30 min at 4°C in the dark. After 2 washes in FACS buffer, cells were analyzed using a BD LSR2 flow cytometer gating on lymphocytes expressing CD3 and CD4 or CD8.

Foster A.M., Baliwag J., Chen C.S., Guzman A.M., Stoll S.W., Gudjonsson J.E., Ward N.L, & Johnston A. (2014). IL-36 promotes myeloid cell infiltration, activation and inflammatory activity in skin. Journal of immunology (Baltimore, Md. : 1950), 192(12), 6053-6061.

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Flow Cytometric Analysis of T Cell Phenotypes

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To evaluate the expression of T cell surface markers by flow cytometry, we incubated tissue and blood cell suspensions with Human TruStain FcX (BioLegend) and stained with following fluorochrome-conjugated antibodies: CD3 (UCHT1, BD Biosciences; OKT3, BioLegend), CD4 (SK3, BD Biosciences; SK3, Tonbo Biosciences), CD8 (SK1, BioLegend; RPA-T8, BD Biosciences), CCR7 (G043H7; BioLegend), CD45RA (HI100; BioLegend), CD25 (BC96; BioLegend), CD127 (A019D5; BioLegend), CD69 (FN50; BioLegend), CD103 (Ber-ACT8; BioLegend), CD45 (HI30; BioLegend), and Fixable Viability Dye eFluor 780 (eBioscience). For stimulation/proliferation assays, we magnetically enriched for CD3⁺ T cells from single cell suspensions, stained cells with Cell Proliferation Dye eFluor 450 (eBioscience), and cultured cells for up to 120 h with or without TCR stimulation as above. At indicated time points, we performed intercellular staining of NME1 (11615-H07E; Sino Biological) using a Foxp3/Transcription Factor Staining Buffer Kit (Tonbo Biosciences) for fixation and permeabilization of cells according to manufacturer’s instructions. We acquired cell fluorescence data using a BD LSR II flow cytometer and used FCS Express (De Novo Software) for analysis. The results are summarized in Supplementary Fig. 2 and the gating strategy is shown in Supplementary Fig. 18a.

Szabo P.A., Levitin H.M., Miron M., Snyder M.E., Senda T., Yuan J., Cheng Y.L., Bush E.C., Dogra P., Thapa P., Farber D.L, & Sims P.A. (2019). Single-cell transcriptomics of human T cells reveals tissue and activation signatures in health and disease. Nature Communications, 10, 4706.

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