Periodic Reporting for period 2 - EvoCELL (Animal evolution from a cell type perspective: multidisciplinary training in single-cell genomics, evo-devo and in science outreach)
Período documentado: 2020-01-01 hasta 2022-06-30
Another focus has been on regeneration. We examined the fidelity of Parhyale hawaiensis leg regeneration. We found that regenerated legs are precise replicates. Single-nuclei RNA seq showed that regenerated and uninjured legs are indistinguishable in terms of cell type composition. Also, by comparing the global transcriptional dynamics of leg regeneration and development in Parhyale we showed that these two processes show distinct temporal profiles of gene expression. Related to this, we investigated the role of piRNAs and PIWI proteins in stem cell maintenance, differentiation and cancer. We developed a bioinformatics tool to identify and annotate somatic piRNAs and used it to identify the piRNA complement in: sea urchin P. lividus embryos, differentiating cardiomyocytes and in colon-rectal cancer (CRC) cell lines. Also, we have characterized the activity of the PIWI/piRNA pathway in CRC cells and found that it may contribute to the establishment and/or maintenance of clinicopathological features of colon cancer.
In addition, we were interested in the life cycle of marine invertebrates and how the cell type complements change between larval and adult stages. We generated single cell expression atlases of different developmental stages in diverse organisms and defined stage-specific and common cell types. For the planula and medusa stages in Clytia hemisphaerica we found both: cells, with unique transcriptional programs, and cell types with conserved gene expression programs between both stages. We could detect shared elements in the transcriptional signature between neural cells and mature nematocytes, allowing us to propose evolutionary scenarios about their emergence. Also, intending to reconstruct the evolution of the neural and secretory cell types at the aboral end of the cnidarian planula larva, we compared Clytia and the stony coral Pocillopora acuta. Also, we aimed to identify potential homologous cellular lineages in two species of Lophotrochozoan larvae.
The results of our research were published in high-impact peer-reviewed scientific journals and were presented at prestigious international conferences. Also, we organized several outreach activities to disseminate the results of our research to the general public.
In this project, we successfully developed a resource available to all partners and the interested public that allows easy access to standardized scRNA-seq datasets created within and outside the network. The resource allows on-site gene expression comparisons across cell types and diving into the evolutionary relationships of genes across a great number of species. This will be of great use for researchers interested in cell type evolution.
Our research on PIWIL1/piRNA pathway in cancer cells is of biomedical impact. Gaining a better understanding of the piRNA pathway during tumorigenesis can help identify molecules that might serve as new prognostic markers and therapeutic targets.
Lastly, we have designed an unprecedented type of science exhibition. Modern biological research often lacks physical objects to exhibit. The objects of interest are indirectly visible through a range of complicated technologies and long processes. To bridge the gap between the highly specialized EvoCELL science and the wider public we developed the virtual exhibition “Life: Through the Looking Glass”. The exhibition attempts to show the processual nature of science and the questions scientists pose as they research. It presents eight stories that let the viewer dive into the research journey of the EvoCELL scientists, and explore a realm with plenty of unknown elements.