Maximilian Bunz scite author profile

Several Zika virus (ZIKV) vaccines designed to elicit protective antibody (Ab) responses are currently under rapid development, but the underlying mechanisms that control the magnitude and quality of the Ab response remain unclear. Here, we investigated the CD4+ T cell response to primary intravenous and intravaginal infection with ZIKV. Using the LysMCre+Ifnar1fl/fl (myeloid type I IFN receptor-deficient) C57BL/6 mouse models, we identified six I-Ab-restricted ZIKV epitopes that stimulated CD4+ T cells with a predominantly cytotoxic Th1 phenotype in mice primed with ZIKV. Intravenous and intravaginal infection with ZIKV effectively induced follicular helper and regulatory CD4+ T cells. Treatment of mice with a CD4+ T cell-depleting Ab reduced the plasma cell, germinal center B cell, and IgG responses to ZIKV without affecting the CD8+ T cell response. CD4+ T cells were required to protect mice from a lethal dose of ZIKV after infection intravaginally, but not intravenously. However, adoptive transfer and peptide immunization experiments showed a role for memory CD4+ T cells in ZIKV clearance in mice challenged intravenously. These results demonstrate that CD4+ T cells are required mainly for the generation of a ZIKV-specific humoral response but not for an efficient CD8+ T cell response. Thus, CD4+ T cells could be important mediators of protection against ZIKV, depending on the infection or vaccination context.

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Flow cytometry based-FRET: basics, novel developments and future perspectives

Lim

Petersen

Bunz

et al. 2022

Cell. Mol. Life Sci.

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Förster resonance energy transfer (FRET) is a widespread technology used to analyze and quantify protein interactions in multiple settings. While FRET is traditionally measured by microscopy, flow cytometry based-FRET is becoming popular within the last decade and more commonly used. Flow cytometry based-FRET offers the possibility to assess FRET in a short time-frame in a high number of cells thereby allowing stringent and statistically robust quantification of FRET in multiple samples. Furthermore, established, simple and easy to implement gating strategies facilitate the adaptation of flow cytometry based-FRET measurements to most common flow cytometers. We here summarize the basics of flow cytometry based-FRET, highlight recent novel developments in this field and emphasize on exciting future perspectives.

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HCV egress – unconventional secretion of assembled viral particles

Bunz¹,

Ritter²,

Schindler³

2022

Trends in Microbiology

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CD4+ T cells Promote Humoral Immunity and Viral Control during Zika Virus Infection

Ngono

Young

Bunz

et al. 2019

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Correction: CD4+ T cells promote humoral immunity and viral control during Zika virus infection

Ngono¹,

Young²,

Bunz³

et al. 2019

PLoS Pathog

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Maximilian Bunz

CD4+ T cells promote humoral immunity and viral control during Zika virus infection

Flow cytometry based-FRET: basics, novel developments and future perspectives

HCV egress – unconventional secretion of assembled viral particles

CD4+ T cells Promote Humoral Immunity and Viral Control during Zika Virus Infection

Correction: CD4+ T cells promote humoral immunity and viral control during Zika virus infection

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