Haematopoietic stem cells (HSC) reside within the bone marrow stem cell niche, which contains different niche cells including, mesenchymal stem cells, endothelial cells as well as neural fibres. In particular, different vascular beds in the bone marrow have been described to control different functions of HSCs. Similarly, different neural fibres have been found in distinct regions of the bone marrow. Interestingly, neurovascular beds particularly differ in regions close to the bone surface (endosteal) in contrast to central bone marrow (non-endosteal). Thus, aim of the project was to study the role of different vascular niches with particular focus on the interaction with the nervous system during steady state, physiological ageing,myeloproliferative neoplasms (MPN) and lekaemia. In line with the demographic change in Europe, age-related haematological complications will increase and early design of novel treatment strategies will be important for minimising age-related complications. Moreover, MPN treatments are currently primarily symptomatic to prevent thrombo-hemorrhagic complications and do not reduce the risk of leukemic transformation and development of secondary myelofibrosis, which can lead to bone marrow failure. Along these lines, relapse from chemotherapy due to mechanisms of chemoprotection is still a mayor complication in leukaemia therapy. Thus, understanding the differential remodelling of the bone marrow microenvironment in MPN and leukaemia progression will contribute to the development of novel niche-targeting strategies and might improve the health of the European society. Moreover, basic research might eventually translate into clinical application and set the stage for European pharmaceutical companies to develop innovative drugs.