Loudes C, Petit F, Kordon C, Faivre-Bauman A
INSERM U 159, Paris, France.
Eur J Neurosci. 1999 Feb;11(2):617-24. doi: 10.1046/j.1460-9568.1999.00463.x.
We have previously demonstrated that differentiation of hypothalamic dopaminergic (DA) neurons can be induced in culture by their pituitary intermediate lobe target cells, through both membrane and diffusible factors. We also showed that subpopulations of DA neurons from the arcuate nucleus only, not the periventricular area, can respond to the target. Here we investigated the possibility that both neuronal subsets could also respond differentially to brain-derived neurotrophic factor (BDNF) or neurotrophin-3 (NT3). Addition of NT3, but not BDNF, enhanced growth and branching of neurites, tyrosine hydroxylase (TH) as well as increasing levels of cultured arcuate DA neurons. Conversely, BDNF, but not NT3, affected the same parameters in cultured periventricular DA neurons. The neurotrophins thus affect DA neurons in a structure and neuronal type-selective manner, since general neuronal markers were not affected by either neurotrophin. Neurotrophin effects were reversed by addition of specific antibodies directed against them or their respective receptors, TrkB or TrkC. By themselves, the antibodies inhibited development of DA neurons below that of control cultures, suggesting involvement of endogenous neurotrophins. BDNF and NT3 were indeed found in both arcuate and periventricular neurons and in the intermediate lobe. BDNF was always present as the mature peptide. The mature form of NT3 was only detected in the periventricular area; a precursor-like heavier form was present in all tissues studied. The present data suggest that NT3, but not BDNF, could participate in the differentiating action of intermediate lobe cells on arcuate DA neurons.
我们之前已经证明,下丘脑多巴胺能(DA)神经元的分化在培养中可由其垂体中间叶靶细胞通过膜因子和可扩散因子诱导产生。我们还表明,仅弓状核的DA神经元亚群,而非室周区的DA神经元亚群,能够对靶细胞作出反应。在此,我们研究了这两个神经元亚群是否也可能对脑源性神经营养因子(BDNF)或神经营养素-3(NT3)有不同反应。添加NT3而非BDNF可增强培养的弓状DA神经元的神经突生长和分支、酪氨酸羟化酶(TH)水平。相反,BDNF而非NT3对培养的室周DA神经元的相同参数有影响。因此,神经营养因子以结构和神经元类型选择性的方式影响DA神经元,因为一般神经元标志物不受任何一种神经营养因子的影响。添加针对神经营养因子或其各自受体TrkB或TrkC的特异性抗体可逆转神经营养因子的作用。抗体本身抑制DA神经元的发育,使其低于对照培养物,提示内源性神经营养因子的参与。在弓状核和室周神经元以及中间叶中确实发现了BDNF和NT3。BDNF始终以成熟肽形式存在。NT3的成熟形式仅在室周区检测到;在所有研究的组织中均存在一种前体样的较重形式。目前的数据表明,NT3而非BDNF可能参与中间叶细胞对弓状DA神经元的分化作用。
