Your search keyword '"David M. Frucht"' showing total 2 results

1. Detection of Intracellular Phosphorylated STAT-4 by Flow Cytometry

Author

Steven M. Holland, Thomas A. Fleisher, David M. Frucht, and Gulbu Uzel

Subjects

Immunology, Biology, Peripheral blood mononuclear cell, Flow cytometry, Mice, Immune system, medicine, Animals, Immunology and Allergy, Phosphorylation, B cell, Mice, Inbred BALB C, Dose-Response Relationship, Drug, medicine.diagnostic_test, Interferon-alpha, STAT4 Transcription Factor, Flow Cytometry, Acquired immune system, Interleukin-12, Molecular biology, Cell biology, DNA-Binding Proteins, medicine.anatomical_structure, Trans-Activators, Interleukin 12, Signal transduction, Intracellular

Abstract

The convergence of innate and adaptive immunity is critical for host defense, allowing for early protection and the generation of specific responses. STAT-4 is at that point of convergence, unifying the IFNalpha and IL-12 pathways. Activation of STAT-4 is crucial to T cell polarization, B cell and NK cell activation, and the control of intracellular pathogens. However, techniques to detect phosphorylated STAT-4 are cumbersome and require many cells. We have developed a flow cytometric detection technique to investigate IL-12 signaling in human peripheral blood mononuclear cells. Using different polyclonal antibodies that recognize either total STAT-4 protein or tyrosine-phosphorylated STAT-4, we can easily detect IL-12 and IFNalpha signaling in PHA/IL-2 blasts derived from peripheral blood lymphocytes. This technique not only allows us to evaluate IL-12 signaling, but it is also less time consuming and labor intensive than alternative methods. Using this flow cytometry-based method, we should be able to detect patients with defects in IL-12 receptor signal transduction, who typically present with disseminated nontuberculous mycobacterial infections.

Published

2001

2. IL-12-Independent Costimulation Pathways for Interferon-γ Production in Familial DisseminatedMycobacterium aviumComplex Infection

Author

David I. Sandberg, David M. Frucht, Margaret R. Brown, Susan M. Gerstberger, and Steven M. Holland

Subjects

Cellular immunity, CD40 Ligand, Immunology, Monocytes, Cell Line, Interferon-gamma, Antigens, CD, Interferon, medicine, Humans, Immunology and Allergy, Interferon gamma, CD40 Antigens, Mycobacterium avium-intracellulare Infection, CD86, Membrane Glycoproteins, CD40, biology, Monocyte, Mycobacterium avium Complex, Interleukin-12, medicine.anatomical_structure, Leukocytes, Mononuclear, Interleukin 12, biology.protein, B7-2 Antigen, K562 Cells, Signal Transduction, medicine.drug, K562 cells

Abstract

We have described previously a family with an apparent genetic susceptibility to disseminated Mycobacterium avium complex infection and an underlying defect in IL-12 regulation leading to abnormally low interferon-gamma production. Their T cells appear to act normally when in the presence of normal accessory cells. Cell-to-cell contact was necessary for normal monocytes to complement the familial patient monocyte defect, suggesting the familial defect in interferon-gamma costimulation involves pathways requiring cell surface molecule interactions. In an effort to better characterize the abnormality in these patients, we examined the role of known costimulatory molecules in residual costimulation by patient PBMC compared to normals. Whereas normals utilized CD40/CD40L interactions and IL-12 production for optimal interferon-gamma costimulation in PHA-stimulated cocultures, familial patient interferon-gamma production was low and unaffected by their blockade. CD86 blockade caused a greater than 50% reduction in both normal and familial patient interferon-gamma production, implying that a majority of residual familial patient costimulation required this pathway. Furthermore, selected myelomonocytic cell lines (K562 and THP1) acted as potent accessory cells for interferon-gamma production by familial patient and normal T cells, largely independent of IL-12 production. However, CD86 blockade of K562 cell/familial cell cocultures resulted in less than a 20% reduction in interferon-gamma production, indicating that familial patient cells respond to IL-12- and CD86-independent costimulatory signals for interferon-gamma as well. Thus, we demonstrate that the familial defect also involves interferon-gamma costimulation pathways requiring both CD40/CD40L interaction and IL-12 production, while residual pathways remain that allow low-level interferon-gamma production. Familial Mycobacterium avium patient monocytes and certain myelomonocytic cell lines can be exploited to investigate IL-12-independent costimulation for interferon-gamma production.

Published

1999