Volume 15, Issue 4, Pages (October 2001)

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Volume 15, Issue 4, Pages 671-682 (October 2001) HIV-1 Actively Replicates in Naive CD4+ T Cells Residing within Human Lymphoid Tissues  Daniel A Eckstein, Michael L Penn, Yael D Korin, Deirdre D Scripture-Adams, Jerome A Zack, Jason F Kreisberg, Mario Roederer, Michael P Sherman, Peggy S Chin, Mark A Goldsmith  Immunity  Volume 15, Issue 4, Pages 671-682 (October 2001) DOI: 10.1016/S1074-7613(01)00217-5

Figure 1 Flow Cytometric Analysis of Lymphocytes and Blasts within Human Lymphoid Histocultures Immediately following Tissue Procurement (A) Forward and side scatter properties of cells dispersed from human tonsil immediately following tonsillectomy. (B) Anti-BrdU reactivity of the same tissue. (C–F) Distribution of memory and naive CD4+ T cell subsets in tonsil tissue. Cells from uncultured tonsil specimens were immunostained with anti-CD45RA and CD62L mAbs (C and D) or anti-CD45RA and CD45RO mAbs (E and F). Shown are dot plots from a representative donor tissue (gated on CD4+ cells). Values indicated for each region represent the mean percentages for each subset derived from a collection of donor tissues analyzed (n = 8–14); SEM for each subset was less than 20% of the mean Immunity 2001 15, 671-682DOI: (10.1016/S1074-7613(01)00217-5)

Figure 2 HIV-1 Infection of Naive and Memory CD4+ T Cells (Top) Intracellular p24 staining of memory (A–C) or naive (D–F) CD4+ T cells from mock infected (A and D), from NL4-3-infected cultures (B and E), or from NL4-3-infected cultures treated with trypsin prior to staining (C and F). (Bottom) Intracellular p24 staining of memory (G–I) or naive (J–L) CD4+ T cells from mock infected cultures (G and J), from NL4-3-infected cultures (H and K), or from NL4-3-infected cultures incubated with AMD3100 for the duration of the infection (I and L). Presented are typical experiments from among three with indistinguishable results Immunity 2001 15, 671-682DOI: (10.1016/S1074-7613(01)00217-5)

Figure 3 Cellular Proliferation and HIV-1 Infection and Depletion of Naive and Memory CD4+ T Cell Subsets (A) BrdU incorporation in naive and memory (identified by anti-CD45RA and -CD45RO mAbs) lymphocytes and blasts from tonsil histocultures following a 12 hr labeling with BrdU. (B) Productively infected T cell subsets in these tissues following an 8 day infection with NL4-3 (closed bars) or 49-5 (open bars). (C) Productively infected naive T cells following an 8 day infection with NL4-3, 7/86, 49-5, or 1/85. (D) Depletion of T cell subsets in tonsil tissue following a 12 day infection with NL4-3. (E) Depletion of T cell subsets in tonsil tissue following a 12 day infection with 49-5. Shown are mean values with SEM (n = 3) of a representative experiment from among experiments performed with three to seven different donor tissues Immunity 2001 15, 671-682DOI: (10.1016/S1074-7613(01)00217-5)

Figure 4 Kinetic Analysis of BrdU Incorporation in Tonsil Histoculture Lymphocytes and Blasts (A) Histocultures were labeled with BrdU for 12 hr and washed extensively. Tissues were cultured for an additional 16 or 24 hr, dispersed, immunostained with mAbs to CD4 and BrdU, and analyzed by flow cytometry. (B) Parallel histocultures were infected with NL4-3 or cultured continuously in medium containing BrdU for 7 days. Cells were dispersed and immunostained for CD4, CD45RA, and either intracellular p24 (open bars) or intracellular BrdU (solid bars). Shown are mean values with SEM (n = 3) from a typical experiment from among three experiments with different tissue specimens Immunity 2001 15, 671-682DOI: (10.1016/S1074-7613(01)00217-5)

Figure 5 Cell Cycle Analysis of CD4+ Lymphocytes and Blasts in PBMC and HIV-1-Infected Tonsil Histocultures Cells were stained with 7-AAD (for DNA content), pyronin Y (for RNA content), and anti-CD45RA and anti-CD4 mAbs and analyzed by flow cytometry. Cell cycle profiles of unstimulated and anti-CD3, anti-CD28-stimulated PBMC (A), and histoculture lymphocytes and blasts (B). Frequency of histoculture total blasts, total lymphocytes, and CD45RA+ lymphocytes in indicated phases of the cell cycle (C). Presented is a typical experiment from among three with indistinguishable results Immunity 2001 15, 671-682DOI: (10.1016/S1074-7613(01)00217-5)

Figure 6 Burst Size of NL4-3-Infected Memory and Naive T Cells Isolated from Tonsil Cultures Cells from tonsil tissues were stained with anti-CD45RA and anti-CD62L mAbs and sorted by flow cytometry. (A) p24 content of memory and naive T cells. (B) Soluble p24 and (C) infectious units released by infected memory and naive T cells during 1.5 days of culture in normal media. (D) Soluble p24 released by infected memory and naive T cells during 3.5 days of culture in the presence of AMD3100 to prevent viral spread. (E) Soluble p24 and (F) infectious units released by infected memory and naive T cells during 1.5 days of culture in media containing IL-2. Shown is a typical experiment from among four with indistinguishable results Immunity 2001 15, 671-682DOI: (10.1016/S1074-7613(01)00217-5)

Figure 7 Burst Size of NL4-3-Infected Memory and Naive T Cells Reincorporated into Tonsil Cultures Cells from tonsil tissues were stained with anti-CD45RA and anti-CD62L mAbs and sorted by flow cytometry. Sorted memory or naive T cells were cultured as isolated cells or in the presence of donor-matched lymphoid tissue. (A) Soluble p24 released by isolated and remixed infected memory or naive T cells during 3.5 days of culture in the presence of AMD3100. (B) Infectious units released by isolated and remixed infected memory or naive T cells during 1.5 days of culture in normal media. Shown is a typical experiment from among three with indistinguishable results Immunity 2001 15, 671-682DOI: (10.1016/S1074-7613(01)00217-5)