Frontiers in Neurogenesis

One of the most intriguing dogmas in neurosciences-the empirical lack of brain neuronal regeneration in adulthood onwards to late life-began to be debunked initially by research groups focused on understanding postnatal (early days/weeks of murine and guinea pigs) neurodevelopmental and neuroplastic events [...].

[1]  B. Tepper,et al.  Postnatal and Adult Neurogenesis in Mammals, Including Marsupials , 2022, Cells.

[2]  A. Butt,et al.  Targeting the Subventricular Zone to Promote Myelin Repair in the Aging Brain , 2022, Cells.

[3]  F. Watt,et al.  Functional genomics and the future of iPSCs in disease modeling , 2022, Stem cell reports.

[4]  M. Boldrini,et al.  Dysregulation of adult hippocampal neuroplasticity in major depression: pathogenesis and therapeutic implications , 2022, Molecular Psychiatry.

[5]  O. Brüstle,et al.  Cerebral Organoids Maintain the Expression of Neural Stem Cell-Associated Glycoepitopes and Extracellular Matrix , 2022, Cells.

[6]  C. von Gall,et al.  Adult Neurogenesis under Control of the Circadian System , 2022, Cells.

[7]  A. Zwergal,et al.  L-Thyroxine Improves Vestibular Compensation in a Rat Model of Acute Peripheral Vestibulopathy: Cellular and Behavioral Aspects , 2022, Cells.

[8]  C. ffrench-Constant,et al.  Distinct Actions of the Thyroid Hormone Transporters Mct8 and Oatp1c1 in Murine Adult Hippocampal Neurogenesis , 2022, Cells.

[9]  A. Rodrigues,et al.  Beyond New Neurons in the Adult Hippocampus: Imipramine Acts as a Pro-Astrogliogenic Factor and Rescues Cognitive Impairments Induced by Stress Exposure , 2022, Cells.

[10]  H. Binder,et al.  The Transcriptome and Methylome of the Developing and Aging Brain and Their Relations to Gliomas and Psychological Disorders , 2022, Cells.

[11]  J. Relvas,et al.  Neuron–Microglia Contact-Dependent Mechanisms Attenuate Methamphetamine-Induced Microglia Reactivity and Enhance Neuronal Plasticity , 2022, Cells.

[12]  G. Turgeman,et al.  Interleukine-17 Modulates Neurogenesis and Behavior Following Exposure to Trauma in Mice , 2022, Cells.

[13]  D. Choi,et al.  Implication of Adult Hippocampal Neurogenesis in Alzheimer’s Disease and Potential Therapeutic Approaches , 2022, Cells.

[14]  Zhao-Qi Wang,et al.  Multifaceted Microcephaly-Related Gene MCPH1 , 2022, Cells.

[15]  Peng Chen,et al.  New Insights Into the Role of Aberrant Hippocampal Neurogenesis in Epilepsy , 2021, Frontiers in Neurology.

[16]  B. Tighilet,et al.  Sensorimotor Rehabilitation Promotes Vestibular Compensation in a Rodent Model of Acute Peripheral Vestibulopathy by Promoting Microgliogenesis in the Deafferented Vestibular Nuclei , 2021, Cells.

[17]  F. Szele,et al.  Novel Galectin-3 Roles in Neurogenesis, Inflammation and Neurological Diseases , 2021, Cells.

[18]  P. Baldi,et al.  Transcriptome Profiling of Dysregulated GPCRs Reveals Overlapping Patterns across Psychiatric Disorders and Age-Disease Interactions , 2021, Cells.

[19]  Jaebong Kim,et al.  Foxd4l1.1 Negatively Regulates Chordin Transcription in Neuroectoderm of Xenopus Gastrula , 2021, Cells.

[20]  L. Pinto,et al.  Adult brain cytogenesis in the context of mood disorders: From neurogenesis to the emergent role of gliogenesis , 2021, Neuroscience & Biobehavioral Reviews.

[21]  M. Schmeisser,et al.  Criss‐crossing autism spectrum disorder and adult neurogenesis , 2021, Journal of neurochemistry.

[22]  C. Schuurmans,et al.  Direct Neuronal Reprogramming: Bridging the Gap Between Basic Science and Clinical Application , 2021, Frontiers in Cell and Developmental Biology.

[23]  H. van Praag,et al.  Effects of Combined Anti-Hypertensive and Statin Treatment on Memory, Fear Extinction, Adult Neurogenesis, and Angiogenesis in Adult and Middle-Aged Mice , 2021, Cells.

[24]  Cédric G. Geoffroy,et al.  The Potential Role of Inflammation in Modulating Endogenous Hippocampal Neurogenesis After Spinal Cord Injury , 2021, Frontiers in Neuroscience.

[25]  C. Mollinari,et al.  Direct Reprogramming of Somatic Cells to Neurons: Pros and Cons of Chemical Approach , 2021, Neurochemical Research.

[26]  M. Jang,et al.  Hippocampal regenerative medicine: neurogenic implications for addiction and mental disorders , 2021, Experimental & Molecular Medicine.

[27]  Vilaiwan M. Fernandes,et al.  More Than Mortar: Glia as Architects of Nervous System Development and Disease , 2020, Frontiers in Cell and Developmental Biology.

[28]  J. Gil-Mohapel,et al.  Beyond the Hippocampus and the SVZ: Adult Neurogenesis Throughout the Brain , 2020, Frontiers in Cellular Neuroscience.

[29]  G. Petsko,et al.  Personalized iPSC-Derived Dopamine Progenitor Cells for Parkinson's Disease. , 2020, The New England journal of medicine.

[30]  K. Brennand,et al.  Modeling the complex genetic architectures of brain disease , 2020, Nature Genetics.

[31]  A. Kriegstein,et al.  Single-cell atlas of early human brain development highlights heterogeneity of human neuroepithelial cells and early radial glia , 2020, Nature Neuroscience.

[32]  Mark M. Davis,et al.  Single cell analysis reveals T cell infiltration in old neurogenic niches , 2019, Nature.

[33]  F. Gage Adult neurogenesis in mammals , 2019, Science.

[34]  S. Takagi,et al.  Evaluation of Transplanted Autologous Induced Pluripotent Stem Cell-Derived Retinal Pigment Epithelium in Exudative Age-Related Macular Degeneration. , 2019, Ophthalmology. Retina.

[35]  Pedro M. Baptista,et al.  Adult Hippocampal Neurogenesis: Regulation and Possible Functional and Clinical Correlates , 2018, Front. Neuroanat..

[36]  Sara B. Linker,et al.  The role of adult hippocampal neurogenesis in brain health and disease , 2018, Molecular Psychiatry.

[37]  G. Bersani,et al.  Schizophrenia and neurogenesis: A stem cell approach , 2017, Neuroscience & Biobehavioral Reviews.

[38]  J. C. Belmonte,et al.  Understanding the genetics behind complex human disease with large-scale iPSC collections , 2017, Genome Biology.

[39]  N. Sousa,et al.  The modulation of adult neuroplasticity is involved in the mood-improving actions of atypical antipsychotics in an animal model of depression , 2017, Translational psychiatry.

[40]  M. Costanzi,et al.  The Long Run: Neuroprotective Effects of Physical Exercise on Adult Neurogenesis from Youth to Old Age , 2017, Current neuropharmacology.

[41]  Takashi Daimon,et al.  Autologous Induced Stem‐Cell–Derived Retinal Cells for Macular Degeneration: Brief Report , 2017, The New England journal of medicine.

[42]  P. Araos,et al.  A place for the hippocampus in the cocaine addiction circuit: Potential roles for adult hippocampal neurogenesis , 2016, Neuroscience & Biobehavioral Reviews.

[43]  M. Götz,et al.  Neurogenesis in the Developing and Adult Brain-Similarities and Key Differences. , 2016, Cold Spring Harbor perspectives in biology.

[44]  M. Götz,et al.  Radial glia – from boring cables to stem cell stars , 2013, Development.

[45]  F. Miller,et al.  Timing Is Everything: Making Neurons versus Glia in the Developing Cortex , 2007, Neuron.

[46]  J. Malberg CRSN Symposium : Focus on Depression , Part I Symposium du CRSN : le point sur la dépression , première partie Implications of adult hippocampal neurogenesis in antidepressant action , 2004 .

[47]  Charles G. Gross,et al.  Neurogenesis in the adult brain: death of a dogma , 2000, Nature Reviews Neuroscience.

[48]  P. Rakić,et al.  Continuation of neurogenesis in the hippocampus of the adult macaque monkey. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[49]  F. Gage,et al.  Running increases cell proliferation and neurogenesis in the adult mouse dentate gyrus , 1999, Nature Neuroscience.

[50]  F. Gage,et al.  Neurogenesis in the adult human hippocampus , 1998, Nature Medicine.

[51]  Ming-Zhi Zhang,et al.  Gliogenesis in postnatal rat optic nerve: LC1+ microglia and S100-β+ astrocytes , 1997 .

[52]  T. Palmer,et al.  Neurogenesis in the dentate gyrus of the adult rat: age-related decrease of neuronal progenitor proliferation , 1996, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[53]  H. Cameron,et al.  Differentiation of newly born neurons and glia in the dentate gyrus of the adult rat , 1993, Neuroscience.

[54]  C. Jacque,et al.  Evidence that mouse astrocytes may be derived from the radial glia An immunohistochemical study of the cerebellum in the normal and reeler mouse , 1985, Journal of Neuroimmunology.

[55]  M. Schachner,et al.  Monoclonal antibodies (O1 to O4) to oligodendrocyte cell surfaces: an immunocytological study in the central nervous system. , 1981, Developmental biology.

[56]  J. Altman,et al.  Autoradiographic and histological evidence of postnatal hippocampal neurogenesis in rats , 1965, The Journal of comparative neurology.

[57]  J. Altman,et al.  Are New Neurons Formed in the Brains of Adult Mammals? , 1962, Science.