About the role
TheGroup of Brain Vasculature and Perivascular Nichefocuses onvascular growthand the development of blood vessels (angiogenesis) in thebrain, including endothelial cells and perivascular cells of the neurovascular unit/perivascular niche, and onbrainvascular heterogeneityin development, health and disease.
The main aims are:
to understand the cellular and molecular underpinnings that govern the growth of the developing, adult, and diseased human brain vasculature at single-cell resolution, to uncover the single-cell transcriptomic, genomic and epigenomic landscapes and spatial biology of the developing, adult and diseased human brain vasculature, to elucidate how developmental programs regulate vascular growth/angiogenesis in the human brain tumour vasculature (patho-fetal axis / onco-fetal axis), to unravel the onco-fetal programs of vascular growth/angiogenesis and immunosuppression/immunomodulation' to translate these fundamental insights about the onco-fetal axis in the human brain (tumour) vasculature into clinical settings with the ultimate goal to identify novel therapeutic strategies for human brain tumours (and for other vascular-dependent diseases such as human brain vascular malformations).
To tackle these fundamental challenges regarding the biology of the human brain vasculature in development, adulthood and disease, the group uses a variety of state-of-the-art technologies, including single-cell and spatial multi-omics, imaging mass cytometry, advanced imaging of human and mouse tissues, and innovative somatic mouse models. The focus of the team is on the most aggressive human brain tumours, notably primary brain tumours such as glial brain tumours (lower-grade gliomas, and the highly aggressive glioblastoma (GBMs)) as well as on secondary brain tumours such as brain metastases.
The ultimate goal is to develop novel and conceptually different treatment strategies. Specific areas of focus are the developmental mechanisms (patho-fetal programs or onco-fetal programs) driving vascular growth in the human fetal brain and in human brain tumours, and how they are linked to immunosuppressive signals in the perivascular niche.
The successful candidate is be expected to be a driving force of these highly novel, original and competitive projects, to produce independent and original research in this area, to develop and apply new concepts and to have a creative approach to problem solving.
The post is funded for until 31st December in the first instance.
About you
We are exclusively looking for outstanding and highly motivated candidates.
To tackle the above-mentioned high risk-high potential projects, candidates should demonstrate overwhelming enthusiasm for single-cell genomics, neuroscience, vascular biology, developmental biology, and cancer/tumor biology.
A central component of the project will be the analysis, evaluation and interpretation of large-scale molecular (single-cell and spatial multi-omics) data using the latest bioinformatics/single-cell and spatial multi-omics tools and strategies. Therefore, excellent training, experience, knowledge, and enthusiasm in/for molecular- and cell biology, and single-cell and spatial multi-omics and computational biology/bioinformatics and biostatistics are required.Moreover, the candidate should be highly motivated and display a flexibility with regard to experimental (combination of various in vivo and in vitro experiments of human and mouse tissues) and organizational (the candidate will work at the University College London, in close collaboration with the Toronto Western Hospital, University Health Network and the University of Toronto) aspects. Therefore, we feel that only very dedicated, motivated, and talented candidates will be able to successfully work on the above-described, highly novel, original, translational and competitive projects with the potential to significantly enhance our knowledge on the biology of the human brain vasculature in development, adulthood, and disease. Finally, the candidate should have the ability and self-motivation to work both independently and as a team player and should demonstrate good communication skills. The successful candidate is be expected to be a driving force of these highly novel, original and competitive projects, to produce independent and original research in this area, to develop and apply new concepts and to have a creative approach to problem solving. Applicants who do not currently hold a PhD will not be considered for the position. Candidates who already did a first postdoc in one of the core expertise areas are highly encouraged to apply for this very competitive and attractive position.
The successful candidates :
Have a PhDin bioinformatics/single-cell genomics/computer science (AI), neuroscience, vascular biology, developmental biology, cancer biology, immunology, biology/biomedicine, pharmacy, biomedical engineering, or related fields with ample research experience.
Have strong skills in working in the fields of bioinformatics/single-cell genomics and/or spatial multi-omics,neuroscience, vascular biology, developmental biology, cancer biology and immunology and/or experience in biotech, intellectual protection, etc. are an extra-added value. Have a proven publication record with at least one first author publication in peer-reviewed international journals.
Have experience in: (i) integrating single-cell and spatial multi-omics; (ii) computational programming in R, Python (and other common computer languages); (iii) competence/interest in analysing and integrating complex single-cell and spatial multi-omics- and clinical datasets are essential.Will be an ambitious researcher, motivated to apply his/her skills to diverse (medical) research projects and enjoy working in a collaborative, dynamic, vibrant and fast-paced team environment. Have excellent organizational and supervisory skills, you can work in a team as well as independently. Have a strong ability to multi-task, to meet timelines, to work accurately; you are stress-resistant.
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