Rico Jahnke scite author profile

Dendritic cells (DCs) and natural killer (NK) cells are critically involved in the early response against various bacterial microbes. Functional activation of infected DCs and NK cell-mediated gamma interferon (IFN-γ) secretion essentially contribute to the protective immunity against Chlamydia. How DCs and NK cells cooperate during the antichlamydial response is not fully understood. Therefore, in the present study, we investigated the functional interplay between Chlamydia-infected DCs and NK cells. Our biochemical and cell biological experiments show that Chlamydia psittaci-infected DCs display enhanced exosome release. We find that such extracellular vesicles (referred to as dexosomes) do not contain infectious bacterial material but strongly induce IFN-γ production by NK cells. This directly affects C. psittaci growth in infected target cells. Furthermore, NK cell-released IFN-γ in cooperation with tumor necrosis factor alpha (TNF-α) and/or dexosomes augments apoptosis of both noninfected and infected epithelial cells. Thus, the combined effect of dexosomes and proinflammatory cytokines restricts C. psittaci growth and attenuates bacterial subversion of apoptotic host cell death. In conclusion, this provides new insights into the functional cooperation between DCs, dexosomes, and NK cells in the early steps of antichlamydial defense.

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A Straightforward Hypoxic Cell Culture Method Suitable for Standard Incubators

Matthiesen

Jahnke

Knittler

2021

MPs

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We present a new and straightforward method by which standard cell culture plates can be sealed off from ambient air and be placed under controlled hypoxic cell culture conditions without costly or highly specialized materials. The method was established on a murine cell culture system using the dendritic cell line JAWS II but can be readily adapted to other cell cultures. The procedure was designed to be easy to implement in cell culture laboratories with standard incubators and requires only readily available materials, resources, and consumables, such as six-well plates, degassed culture medium, CoCl2, a vacuum sealer, etc., and no further complicated laboratory equipment. The simple hypoxic cell culture method presented here is technically reliable and experimentally safe. As it can be performed in any standard incubator, it is suitable for use at both low and higher biosafety levels.

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Coxiella burnetii-Infected NK Cells Release Infectious Bacteria by Degranulation

et al. 2020

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Natural killer (NK) cells are critically involved in the early immune response against various intracellular pathogens, including Coxiella (C.) burnetii and Chlamydia (C.) psittaci. Chlamydia-infected NK cells functionally mature, induce cellular immunity, and protect themselves by killing the bacteria in secreted granules. Here, we report that infected NK cells do not allow intracellular multi-day growth of Coxiella, as is usually observed in other host cell types. C. burnetii-infected NK cells display maturation and IFN-γ secretion, as well as the release of Coxiella-containing lytic granules. Thus, NK cells possess a potent program to restrain and expel different types of invading bacteria via degranulation. Strikingly though, in contrast to Chlamydia, expulsed Coxiella largely retain their infectivity and, hence, escape the cell-autonomous self-defense mechanism in NK cells.

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Rico Jahnke

Chronic neurodegenerative disease associated with HTLV-II infection

Chlamydia psittaci -Infected Dendritic Cells Communicate with NK Cells via Exosomes To Activate Antibacterial Immunity

A Straightforward Hypoxic Cell Culture Method Suitable for Standard Incubators

Coxiella burnetii-Infected NK Cells Release Infectious Bacteria by Degranulation

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