Project description:Human post-mortem skin samples from slow death and fast death

Project description:The periplasm of gram-negative bacteria facilitates critical functions, including nutrient uptake, cell wall metabolism, antibiotic resistance, and virulence. Efficient quality control of proteins involved in these processes is crucial for bacterial fitness and survival. The limited size of the periplasm has hindered high-resolution mechanistic investigations of complex processes within this compartment. Using in-cell NMR spectroscopy, we dissected the mechanism of periplasmic quality control of the metallo-β-lactamase NDM-1 under conditions of zinc starvation, which destabilizes its native structure promoting its degradation. We show that the protease Prc targets membrane-bound NDM-1 at specific residues and secondary structure motifs, while DegP processes peptides generated by Prc. This approach discloses the concerted mechanism of these proteases at atomic resolution in the periplasm of live cells.

Project description:The transition from growth to stationary phase is a natural response of bacteria to starvation and stress. When stress is alleviated and more favorable growth conditions return, bacteria resume proliferation without a significant loss in fitness. Although specific adaptations that enhance the persistence and survival of bacteria in stationary phase have been identified, mechanisms that help maintain the competitive fitness potential of non-dividing bacterial populations have remained obscure. Here, we demonstrate that staphylococci that enter stationary phase following growth in media supplemented with excess glucose undergo regulated cell death to maintain the competitive fitness potential of the population. Upon a decrease in extracellular pH, the acetate generated as a byproduct of glucose metabolism induces cytoplasmic acidification and extensive protein damage in non-dividing cells. Although cell death ensues,it does not occur as a passive consequence of protein damage. Instead, we demonstrate that the expression and activity of the ClpXP protease is induced, resulting in the degeneration of cellular antioxidant capacity and, ultimately,cell death. Under these conditions, inactivation of either clpX or clpP resulted in the extended survival of unfit cells in stationary phase, but at the cost of maintaining population fitness. Finally, we show that cell death from antibiotics that interfere with bacterial protein synthesis can also be partly ascribed to the corresponding increase in clpP expression and activity. The functional conservation of ClpP in eukaryotes and bacteria suggests that ClpP-dependent cell death and fitness maintenance may be a widespread phenomenon in these domains of life.

Project description:In this study, we evaluated the effects of the post-mortem interval, defined as the number of days elapsed between the death of a donor and the isolation of hCECs, on the properties of hCECs. Using gene profiling, we compared the mRNA profiles of passage 1 hCECs (10 populations) cultivated in moculture with different post-mortem intervals and passage 2 hCECs (6 populations) with different post-mortem intervals from hTECs.

Project description:Purpose: RNA analysis of post-mortem tissues, or thanathotranscriptomics, has become a topic of interest in forensic science due to the essential information it can provide in forensic case investigations. Several studies have previously investigated the effect of death on gene transcription, but it has never been conducted with samples of the same individual. Methods: For the first time, a longitudinal mRNA expression analysis study was performed with post-mortem human blood samples from individuals with a known time of death. Results: The results reveal that, after death, two clearly differentiated groups of up- and down-regulated genes can be detected. Pathway analysis suggests active processes, rather than passive degradation, are the source of early post-mortem changes of gene expression in blood. In addition, a generalised linear model with an elastic net restriction predicted post-mortem interval with an RMSE of 4.88 hours. Conclusions: Although promising, the forensic relevance of the model is currently limited and should be further improved in more extended studies.

Project description:Accurate analysis of gene expression in human tissues using RNA Sequencing is often dependent on the quality of source material. One major source of variation in mRNA quality is post-mortem time. While it is known that individual transcripts show differential post-mortem stability, few studies have directly and comprehensively analyzed mRNA stability following death, and in particular, the extent to which tissue- and species-specific factors influence post-mortem mRNA stability are poorly understood. This knowledge is particularly important for ocular tissues studies, where tissues obtained post-mortem are frequently used for research or therapeutic applications. To directly investigate this question, we profiled mRNA levels in both neuroretina and retinal pigment epithelium (RPE) from mouse and baboon over a series of post-mortem intervals. We found substantial changes in gene expression as early as 15 minutes in the mouse and as early as three hours in the baboon eye tissues. Importantly, our findings demonstrate both tissue- and species- specific patterns of RNA metabolism, by identifying a set of genes that are either rapidly degraded or very stable in both species and/or tissues. Taken together, the data from this study lays the foundation for understanding RNA regulation post-mortem, and provide novel insights into RNA metabolism in the tissues of the mammalian eye.

Project description:We set up a pilot study using Affymetrix Gene Chip® Porcine Genome Arrays to evaluate the impact of time lags from death on gene expression profiling of porcine skeletal muscle at four post mortem time points (up to 24 hrs) during the routine processing of fresh tights Post mortem skeletal muscle samples were obtained from three commercial hybrid pigs of female sex (of about 160 kg each) raised in the same commercial farm and slaughtered under normal conditions at the same abattoir within 1 minute of each other after stunning by CO2 (concentration 87%) using a dip lift system (Butina, Denmark). A portion of semimembranosus muscle (3-5 g) was sampled from the left legs at 20 minutes (T0) after death following the normal operation of the abattoir. Other samples were collected from the same muscle at the same position after 2 (T1), 6 (T2) and 24 (T3) hrs post mortem in the same abattoir following the cold chain at the abattoir until 4 °C. After sampling, tissues were snap frozen in liquid nitrogen and stored at -80 °C till RNA extraction.

Project description:In response to nutrient deprivation, bacteria activate a conserved stress response pathway called the stringent response (SR). In Caulobacter crescentus, SpoT synthesizes the secondary messengers (p)ppGpp, which affect transcriptional reprogramming by binding to RNA polymerase to downregulate anabolic gene transcription. (p)ppGpp can also impact the expression of anabolic genes by controlling the levels and activities of their transcriptional regulators. In Caulobacter, a major regulator of anabolic genes is the conserved transcription factor CdnL. If and how CdnL is controlled during the SR and why that might be functionally important is unclear. Here, we show that CdnL is regulated post-translationally in a manner dependent on SpoT and the ClpXP protease. We find that stabilization of CdnL causes misregulation of ribosomal and metabolic genes during starvation. Functionally, we demonstrate that the combined action of SR transcriptional regulators and CdnL clearance allows for rapid adaptation to nutrient repletion. We also find that cells that are unable to clear CdnL during starvation are outcompeted by wild-type cells when subjected to fluctuations in nutrients. We hypothesize that post-transcriptional clearance of CdnL during the SR, in conjunction with direct binding of (p)ppGpp and DksA to RNAP, are critical for altering the transcriptome in order to permit cell survival during nutrient stress.

Project description:Ectomycorrhizal fungi are dependent on host trees for carbon supply. In return ectomycorrhizal fungi supply trees with water and nutrients. It is known that when ectomycorrhizal fungi have exploited a nutrient rich patch in soil, the carbon allocation to mycelia in that patch is reduced, with the consequence of mycelia dying, but less is known of the dynamics of this senescence. We cultivated the ectomycorrhizal fungus Paxillus involutus in an axenic system. We collected growth and transcriptome data at different stages of carbon starvation during fungal growth. Carbon starvation induced a decrease in fungal biomass, which coincided with the release of NH4+ and the expression of genes connected with autophagy as well as protease and chitinase activity. Monoaromatic compounds, chitin and protease activity was detected in the liquid growth media during carbon starvation. The exudation of NH4+ and increase of monoaromatic compound during C starvation suggests senescence and autolysis of P. involutus. Together with the upregulation of genes involved in autophagy, chitinase and endopeptidase activity this points towards a controlled senescence including recycling of compounds originating from the fungi. Reduced C allocation to ectomycorrhizal mycelia in recently depleted nutrient patches in forest soils must be of ubiquitous nature. Understanding the mechanisms during exploitation of nutrients by ectomycorrhizal fungi is of great importance for understanding carbon and nutrient dynamics in forest soils. This is to our knowledge the first study describing the carbon starvation response in an ectomycorrhizal fungus. A one-chip study (data from 12 subarrays collected from a 12-plex Nimblegen microarray (ID 527890) using total RNA recovered from three separate glass-bead cultures of Paxillus involutus (ATCC200175) grown on Minimum Melin Norkrans medium (MMN) amended with ammonium (C/N ratio 3) and harvested at different times of carbon starvation.)

Project description:Microbiological diagnosis by post-mortem examination