Donald J Weaver scite author profile

SummaryTwo-photon fluorescence lifetime imaging microscopy was used noninvasively to monitor a fluorescent antigen during macrophage-mediated endocytosis, intracellular vacuolar encapsulation, and protease-dependent processing. Fluorescein-conjugated bovine serum albumin (FITC-BSA) served as the soluble exogenous antigen. As a relatively nonfluorescent probe in the native state, the antigen was designed to reflect sequential intracellular antigen processing events through time-dependent changes in fluorescence properties. Using two-photon lifetime imaging microscopy, antigen processing events were monitored continuously for several hours. During this time, the initial fluorescein fluorescence lifetime of 0 . 5 ns increased to Ϸ 3 . 0 ns. Control experiments using fluorescein conjugated poly-L-lysine and poly-D-lysine demonstrated that the increase in fluorescence parameters observed with FITC-BSA were due to intracellular proteolysis since addition of the inert D-isomer did not promote an increase in fluorescence lifetime or intensity. Comparisons of intravacuolar and extracellular FITC-dextran concentration suggested active localization of dextran in the vacuoles by the macrophage. In addition, the kinetics of degradation observed using two-photon microscopy were similar to results obtained on the flow cytometer, thus validating the use of flow cytometry for future studies.

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Analysis of rates of receptor‐mediated endocytosis and exocytosis of a fluorescent hapten‐protein conjugate in murine macrophage: Implications for antigen processing

Weaver

Voss

1998

Biology of the Cell

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A novel fluorescent hapten-protein conjugate was constructed to monitor the events required for CD 4+ lymphocyte recognition of antigenic proteins. Previous studies utilizing the probe demonstrated that the hapten-protein was localized to an acidic endocytic compartment within the macrophage and that the hapten-protein was sensitive to multiple intracellular events including enzymatic degradation, acidification, and disulfide bond reduction. More importantly, recent experiments indicated that efficient internalization of the probe was dependent upon specific recognition of the hapten. Therefore, the present report addressed the effect of receptor-mediated endocytosis upon the processing of the hapten-protein within murine peritoneal macrophage. These studies determined that the rate of endocytosis was significantly faster than the rate of exocytosis. Specifically, the rate of exocytosis was estimated to be 3.4 x 10(4)s-1 based on a unimolecular rate constant. Although at higher concentrations, a slightly slower rate was observed (1.9 x 10(4)s-1). This study also represented one of the first efforts to measure the intracellular concentration effect typically associated with receptor-mediated endocytosis. Experiments involving a radioactively labeled hapten-protein conjugate revealed that the probe was at 100-fold higher concentration within the endocytic vesicles when compared to the extracellular media. The intracellular mechanism involved in this phenomenon was discussed as well as the implications of these findings upon MHC II-peptide binding.

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Macrophage mediated processing of an exogenous antigenic fluorescent probe: Time‐dependent elucidation of the processing pathway

Weaver

Cherukuri

Carrero

et al. 1996

Biology of the Cell

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To elucidate time-dependent pathways and mechanisms involved in antigen processing, a fluorescent probe suitable to monitor several steps within this pathway was developed. Previous studies utilizing two-photon fluorescence microscopy with time resolved and intensity imaging demonstrated that the probe, fluorescein derivatized BSA, was localized to the endocytic system and degraded over an extended period of time. However, an additional method, flow cytometry, was required to monitor the kinetics of these intracellular events and to better assess the total cell population. Flow cytometric studies indicated that the antigen entered an acidic intracellular environment consistent with the endocytic system of the macrophage. Additional experiments suggested that minimal proteolytic degradation began 10 min after addition of the antigenic probe while extensive enzymatic degradation did not occur until 180-200 min. Inhibitor studies indicated that degradation of the probe was dependent upon both acidic pH and ATP synthesis as well as all four classes of proteases. Experiments involving specific protease inhibitors also revealed that various classes of proteases were active at different time points throughout the processing of the probe. By combining these results with additional kinetic data, a model for the sequence of events involved in the processing of FITC10BSA was proposed. More importantly, these studies represented some of the first time-dependent kinetic measurements of antigen processing in living cells.

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Analysis of the intracellular processing of proteins: Application of fluorescence polarization and a novel fluorescent probe

1997

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Kinetics and intracellular pathways required for major histocompatibility complex II–peptide loading and surface expression of a fluorescent hapten‐protein conjugate in murine macrophage

Weaver

Voss

1999

Immunology

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A fluorescent antigen, FITC10BSA, that is sensitive to several of the biochemical processes involved in antigen processing was constructed. In combination with both flow cytometry and subcellular fractionation, the unique probe provided new details regarding the kinetics and intracellular pathways involved in antigen processing in murine macrophage. These studies suggested that macrophage utilized multiple vesicles as opposed to a few specific organelles for major histocompatibility complex (MHC) type II-peptide loading and transport. Although newly formed MHC II-peptide complexes were detected in cathepsin D-positive, lysosomal associated membrane glycoprotein (LAMP-1)-positive lysosomes, MHC II-peptide loading also occurred in transferrin receptor-positive endosomes. Interestingly, MHC II-fluoresceinated complexes were only observed in transferrin receptor-positive organelles as opposed to MHC II-unlabelled peptide complexes which were detected in traditional early lysosomal compartments. More importantly, MHC II-peptide complexes were monitored in light transferrin receptor-positive fractions following their initial appearance in dense endosomal/lysosomal fractions. Control experiments suggested that these complexes represented intermediates in the process of migrating to the cell surface through a retrograde pathway within the macrophage.

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Donald J Weaver

Two‐photon fluorescence lifetime imaging microscopy of macrophage‐mediated antigen processing

Analysis of rates of receptor‐mediated endocytosis and exocytosis of a fluorescent hapten‐protein conjugate in murine macrophage: Implications for antigen processing

Macrophage mediated processing of an exogenous antigenic fluorescent probe: Time‐dependent elucidation of the processing pathway

Analysis of the intracellular processing of proteins: Application of fluorescence polarization and a novel fluorescent probe

Kinetics and intracellular pathways required for major histocompatibility complex II–peptide loading and surface expression of a fluorescent hapten‐protein conjugate in murine macrophage

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