Katrin Weidenbach scite author profile

The methanoarchaea Methanosphaera stadtmanae and Methanobrevibacter smithii are known to be part of the indigenous human gut microbiota. Although the immunomodulatory effects of bacterial gut commensals have been studied extensively in the last decade, the impact of methanoarchaea in human's health and disease was rarely examined. Consequently, we studied and report here on the effects of M. stadtmanae and M. smithii on human immune cells. Whereas exposure to M. stadtmanae leads to substantial release of proinflammatory cytokines in monocyte-derived dendritic cells (moDCs), only weak activation was detected after incubation with M. smithii. Phagocytosis of M. stadtmanae by moDCs was demonstrated by confocal microscopy as well as transmission electronic microscopy (TEM) and shown to be crucial for cellular activation by using specific inhibitors. Both strains, albeit to different extents, initiate a maturation program in moDCs as revealed by up-regulation of the cell-surface receptors CD86 and CD197 suggesting additional activation of adaptive immune responses. Furthermore, M. stadtmanae and M. smithii were capable to alter the gene expression of antimicrobial peptides in moDCs to different extents.Taken together, our findings strongly argue that the archaeal gut inhabitants M. stadtmanae and M. smithii are specifically recognized by the human innate immune system. Moreover, both strains are capable of inducing an inflammatory cytokine response to different extents arguing that they might have diverse immunomodulatory functions. In conclusion, we propose that the impact of intestinal methanoarchaea on pathological conditions involving the gut microbiota has been underestimated until now.

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Unique mechanistic features of post‐translational regulation of glutamine synthetase activity in Methanosarcina mazei strain Gö1 in response to nitrogen availability

Ehlers

Weidenbach

Veit

et al. 2005

Molecular Microbiology

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Development of genetic methods and construction of a chromosomal glnK1 mutant in Methanosarcina mazei strain Gö1

et al. 2005

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The methanogenic archaeon Methanosarcina mazei strain Gö1 has so far proven to be genetically intractable due to its low plating efficiency on solid medium and the lack of an effective transformation method. Here, we report the first significant improvement in plating efficiency (up to 10%), which was achieved by (1) selecting for a spontaneous mutant of M. mazei that shows significantly higher resistance to mechanical stress during spreading an agar plates, and (2) plating the cells in 0.5% top agar with trimethylamine as a carbon and energy source under a H2S-containing atmosphere (0.1%). Using this mutant we succeeded in establishing a liposome-mediated transformation protocol, which for the first time allowed genetic manipulation of the M. mazei Gö1 strain. We further report on the construction of the first chromosomal deletion mutant of M. mazei by means of homologous recombination. Characterization of this mutant strain revealed that M. mazei cells lacking a functional glnK1-gene exhibited a partial growth defect under nitrogen limitation when molecular nitrogen was used as the sole nitrogen source. Quantitative RT-PCR analysis, however, showed that genes involved in nitrogen assimilation or nitrogen fixation are transcribed in the glnK1 mutant as in the wild type. Thus, we propose that the archaeal GlnK1 protein is not directly involved in the transcriptional regulation of genes involved in nitrogen metabolism, but rather affects their protein products directly.

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