摘要
The recognition that neurogenesis does not stop with adolescence has spun off research towards the reduction of brain disorders by enhancing brain regeneration. Adult neurogenesis is one of the tougher problems of developmental biology as it requires the generation of complex intracellular and pericellular anatomies, amidst the danger of neuroinflammation. We here review how a multitude of regulatory pathways optimized for early neurogenesis has to be revamped into a new choreography of time dependencies. Distinct pathways need to be regulated, ranging from neural growth factor induced differentiation to mitochondrial bioenergetics, reactive oxygen metabolism, and apoptosis. Requiring much Gibbs energy consumption, brain depends on aerobic energy metabolism, hence on mitochondrial activity. Mitochondrial fission and fusion, movement and perhaps even mitoptosis, thereby come into play. All these network processes are interlinked and involve a plethora of molecules. We recommend a deep thinking approach to adult neurobiology.
The recognition that neurogenesis does not stop with adolescence has spun off research towards the reduction of brain disorders by enhancing brain regeneration. Adult neurogenesis is one of the tougher problems of developmental biology as it requires the generation of complex intracellular and pericellular anatomies, amidst the danger of neuroinflammation. We here review how a multitude of regulatory pathways optimized for early neurogenesis has to be revamped into a new choreography of time dependencies. Distinct pathways need to be regulated, ranging from neural growth factor induced differentiation to mitochondrial bioenergetics, reactive oxygen metabolism, and apoptosis. Requiring much Gibbs energy consumption, brain depends on aerobic energy metabolism, hence on mitochondrial activity. Mitochondrial fission and fusion, movement and perhaps even mitoptosis, thereby come into play. All these network processes are interlinked and involve a plethora of molecules. We recommend a deep thinking approach to adult neurobiology.
基金
supported by grants from the Italian Ministry of University and Research(MIUR)(SYSBIONET-Italian ROADMAP ESFRI Infrastructures to LA,AMC and MP
IVASCOMAR-National Cluster to AMC)
Netherlands Organization for Scientific Research(NWO)in the integrated program of WOTRO [W01.65.324.00/project 4] Science for Global Development
Synpol:EU-FP7 [KBBE.2012.3.4-02#311815]
Corbel:EU-H2020 [NFRADEV-4-2014-2015#654248]
Epipredict:EU-H2020 MSCA-ITN-2014-ETN:Marie Sk?odowska-Curie Innovative Training Networks(ITN-ETN)[#642691]
BBSRC China [BB/J020060/1] to HVW
Corbel:EU-H2020 [PID 2354] to HVW and AMC
