C. Aoki, S. Fenstemaker, M. Lubin, and C. G. Go, Nitric oxide synthase in the visual cortex of monocular monkeys as revealed by light and electron microscopic immunocytochemistry, Brain Res, vol.620, pp.97-113, 1993.

G. A. Ascoli, L. Alonso-nanclares, S. A. Anderson, G. Barrionuevo, R. Benavides-piccione et al., Nat. Rev. Neurosci, vol.9, pp.557-568, 2008.

I. Bureau, P. F. Von-saint, and K. Svoboda, Interdigitated paralemniscal and lemniscal pathways in the mouse barrel cortex, PLoS Biol, vol.4, p.382, 2006.

A. Burkhalter, Many specialists for suppressing cortical excitation, Front. Neurosci, vol.2, issue.2, 2008.

S. J. Butt, M. Fuccillo, S. Nery, S. Noctor, A. Kriegstein et al., The temporal and spatial origins of cortical interneurons predict their physiological subtype, Neuron, vol.48, pp.591-604, 2005.

B. Cauli, E. Audinat, B. Lambolez, M. C. Angulo, N. Ropert et al., Molecular and physiological diversity of cortical nonpyramidal cells, J. Neurosci, vol.17, pp.3894-3906, 1997.

B. Cauli, J. T. Porter, K. Tsuzuki, B. Lambolez, J. Rossier et al., Classification of fusiform neocortical interneurons based on unsupervised clustering, Proc. Natl. Acad. Sci. U.S.A, vol.97, pp.6144-6149, 2000.

B. Cauli, X. K. Tong, A. Rancillac, N. Serluca, B. Lambolez et al., Cortical GABA interneurons in neurovascular coupling: relays for subcortical vasoactive pathways, J. Neurosci, vol.24, pp.8940-8949, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00086334

B. Clancy, M. Silva-filho, and M. J. Friedlander, Structure and projections of white matter neurons in the postnatal rat visual cortex, J. Comp. Neurol, vol.434, pp.233-252, 2001.

T. M. Dawson, D. S. Bredt, M. Fotuhi, P. M. Hwang, and S. H. Snyder, Nitric oxide synthase and neuronal NADPH diaphorase are identical in brain and peripheral tissues, Proc. Natl. Acad. Sci. U.S.A, vol.88, pp.7797-7801, 1991.

V. L. Dawson and T. M. Dawson, Nitric oxide in neurodegeneration, Prog. Brain Res, vol.118, pp.215-229, 1998.

, Frontiers in Neural Circuits www.frontiersin.org

C. Douketis, Z. Wang, T. L. Haslett, and M. Moskovits, , 1995.

, Fractal character of cold-deposited silver films determined by lowtemperature scanning tunneling microscopy, Phys. Rev. B Condens. Matter, vol.51, pp.11022-11031

T. Du, Q. Xu, P. J. Ocbina, A. , and S. A. , NKX2.1 specifies cortical interneuron fate by activating Lhx6, Development, vol.135, pp.1559-1567, 2008.

D. Dumitriu, R. Cossart, J. Huang, and R. Yuste, Correlation between axonal morphologies and synaptic input kinetics of interneurons from mouse visual cortex, Cereb. Cortex, vol.17, pp.81-91, 2007.

C. Estrada and J. Defelipe, Nitric oxide-producing neurons in the neocortex: morphological and functional relationship with intraparenchymal microvasculature, 1998.

, Cereb. Cortex, vol.8, pp.193-203

N. Flames, R. Pla, D. M. Gelman, J. L. Rubenstein, L. Puelles et al., Delineation of multiple subpallial progenitor domains by the combinatorial expression of transcriptional codes, J. Neurosci, vol.27, pp.9682-9695, 2007.

M. Fogarty, M. Grist, D. Gelman, O. Marin, V. Pachnis et al., Spatial genetic patterning of the embryonic neuroepithelium generates GABAergic interneuron diversity in the adult cortex, J. Neurosci, vol.27, pp.10935-10946, 2007.

J. G. Franca, E. Volchan, N. Jain, K. C. Catania, R. L. Oliveira et al., Distribution of NADPH-diaphorase cells in visual and somatosensory cortex in four mammalian species, Brain Res, vol.864, pp.163-175, 2000.

M. A. Freire, J. Faber, C. W. Picanco-diniz, J. G. Franca, and A. Pereira, Morphometric variability of nicotinamide adenine dinucleotide phosphate diaphorase neurons in the primary sensory areas of the rat, Neuroscience, vol.205, pp.140-153, 2012.

M. A. Freire, J. G. Franca, C. W. Picancodiniz, and A. Pereira, Neuropil reactivity, distribution and morphology of NADPH diaphorase type I neurons in the barrel cortex of the adult mouse, J. Chem. Neuroanat, vol.30, pp.71-81, 2005.

P. L. Gabbott and S. J. Bacon, Co-localisation of NADPH diaphorase activity and GABA immunoreactivity in local circuit neurones in the medial prefrontal cortex (mPFC) of the rat, Brain Res, vol.699, pp.321-328, 1995.

P. L. Gabbott, B. G. Dickie, R. R. Vaid, A. J. Headlam, and S. J. Bacon, Local-circuit neurones in the medial prefrontal cortex (areas 25, 32 and 24b) in the rat: morphology and quantitative distribution, J. Comp. Neurol, vol.377, pp.465-499, 1997.

T. Gallopin, H. Geoffroy, J. Rossier, and B. Lambolez, Cortical sources of CRF, NKB, and CCK and their effects on pyramidal cells in the neocortex, Cereb. Cortex, vol.16, pp.1440-1452, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00086902

D. Garbossa, M. Fontanella, C. A. Pagni, and A. Vercelli, Nitric oxide synthase and cytochrome c oxidase changes in the tumoural and peritumoural cerebral cortex, Acta Neurochir. (Wien), vol.143, pp.897-908, 2001.

J. Garthwaite, Concepts of neural nitric oxide-mediated transmission, Eur. J. Neurosci, vol.27, pp.2783-2802, 2008.

J. Garthwaite and C. L. Boulton, Nitric oxide signaling in the central nervous system, Annu. Rev. Physiol, vol.57, pp.683-706, 1995.

D. M. Gelman, M. , and O. , Generation of interneuron diversity in the mouse cerebral cortex, Eur. J. Neurosci, vol.31, pp.2136-2141, 2010.

D. Gerashchenko, J. P. Wisor, D. Burns, R. K. Reh, P. J. Shiromani et al., Identification of a population of sleep-active cerebral cortex neurons, Proc. Natl. Acad. Sci. U.S.A, vol.105, pp.10227-10232, 2008.

Y. Gonchar and A. Burkhalter, Three distinct families of GABAergic neurons in rat visual cortex, Cereb. Cortex, vol.7, pp.347-358, 1997.

Y. Gonchar, Q. Wang, and A. Burkhalter, Multiple distinct subtypes of GABAergic neurons in mouse visual cortex identified by triple immunostaining, Front. Neuroanat, vol.1, p.3, 2007.

T. Hashikawa, M. G. Leggio, R. Hattori, Y. , and Y. , Nitric oxide synthase immunoreactivity colocalized with NADPH-diaphorase histochemistry in monkey cerebral cortex, Brain Res, vol.641, pp.341-349, 1994.

S. Higo, K. Akashi, K. Sakimura, and N. Tamamaki, Subtypes of GABAergic neurons project axons in the neocortex, Front. Neuroanat, vol.3, p.25, 2009.

S. Higo, N. Udaka, and N. Tamamaki, Long-range GABAergic projection neurons in the cat neocortex, J. Comp. Neurol, vol.503, pp.421-431, 2007.

C. Iadecola, A. J. Beitz, W. Renno, X. Xu, B. Mayer et al., Nitric oxide synthase-containing neural processes on large cerebral arteries and cerebral microvessels, Brain Res, vol.606, pp.148-155, 1993.

M. Judas, N. Sestan, and I. Kostovic, Nitrinergic neurons in the developing and adult human telencephalon: transient and permanent patterns of expression in comparison to other mammals, Microsc. Res. Tech, vol.45, pp.401-419, 1999.

A. Karagiannis, T. Gallopin, C. David, D. Battaglia, H. Geoffroy et al., Classification of NPY-expressing neocortical interneurons, J. Neurosci, vol.29, pp.3642-3659, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00369558

T. S. Kilduff, B. Cauli, and D. Gerashchenko, Activation of cortical interneurons during sleep: an anatomical link to homeostatic sleep regulation?, Trends Neurosci, vol.34, pp.10-19, 2011.

J. P. Kiss, Role of nitric oxide in the regulation of monoaminergic neurotransmission, Brain Res. Bull, vol.52, pp.459-466, 2000.

Y. Kawaguchi, Physiological subgroups of nonpyramidal cells with specific morphologicalcharacteristics in layer II/III of rat frontal cortex, J. Neurosci, vol.15, pp.2638-2655, 1995.

Y. Kubota, R. Hattori, Y. , and Y. , Three distinct subpopulations of GABAergic neurons in rat frontal agranular cortex, Brain Res, vol.649, pp.159-173, 1994.

Y. Kubota, N. Shigematsu, F. Karube, A. Sekigawa, S. Kato et al., Selective coexpression of multiple chemical markers defines discrete populations of neocortical GABAergic neurons, Cereb. Cortex, vol.21, pp.1803-1817, 2011.

B. Lambolez, E. Audinat, P. Bochet, F. Crepel, and J. Rossier, AMPA receptor subunits expressed by single Purkinje cells, Neuron, vol.9, pp.247-258, 1992.

J. E. Lee, J. , and C. J. , Immunocytochemical localization of nitric oxide synthase-containing neurons in mouse and rabbit visual cortex and co-localization with calcium-binding proteins, Mol. Cells, vol.19, pp.408-417, 2005.

S. Lee, J. Hjerling-leffler, E. Zagha, G. Fishell, R. et al., The largest group of superficial neocortical GABAergic interneurons expresses ionotropic serotonin receptors, J. Neurosci, vol.30, pp.16796-16808, 2010.

L. M. Mcgarry, A. M. Packer, E. Fino, V. Nikolenko, T. Sippy et al., Quantitative classification of somatostatin-positive neocortical interneurons identifies three interneuron subtypes, Front. Neural Circuits, vol.4, p.12, 2010.

G. Miyoshi, S. J. Butt, H. Takebayashi, and G. Fishell, Physiologically distinct temporal cohorts of cortical interneurons arise from telencephalic Olig2-expressing precursors, J. Neurosci, vol.27, pp.7786-7798, 2007.

V. Moro, J. Badaut, V. Springhetti, L. Edvinsson, J. Seylaz et al., Regional study of the co-localization of neuronal nitric oxide synthase with muscarinic receptors in the rat cerebral cortex, Neuroscience, vol.69, pp.797-805, 1995.

E. Oermann, H. J. Bidmon, B. Mayer, and K. Zilles, Differential maturational patterns of nitric oxide synthase-I and NADPH diaphorase in functionally distinct cortical areas of the mouse cerebral cortex, Anat. Embryol, vol.200, pp.27-41, 1999.

G. Paxinos and K. B. Franklin, The Mouse Brain in Stereotaxic Coordinates, 2001.

Q. Perrenoud, J. Rossier, H. Geoffroy, T. Vitalis, and T. Gallopin, Diversity of GABAergic interneurons in layer VIa and VIb of mouse barrel cortex, Cereb. Cortex. PMID, p.22357664, 2012.

A. Rancillac and F. Crepel, Synapses between parallel fibres and stellate cells express long-term changes in synaptic efficacy in rat cerebellum, J. Physiol, vol.554, pp.707-720, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00077796

A. Rancillac, J. Rossier, M. Guille, X. K. Tong, H. Geoffroy et al., Glutamatergic control of microvascular tone by distinct GABA neurons in the cerebellum, J. Neurosci, vol.26, pp.6997-7006, 2006.

J. H. Sandell, NADPH diaphorase histochemistry in the macaque striate cortex, J. Comp. Neurol, vol.251, pp.388-397, 1986.

D. A. Sholl, Dendritic organization in the neurons of the visual and motor cortices of the cat, J. Anat, vol.87, pp.387-406, 1953.

J. F. Smiley, J. P. Mcginnis, and D. C. Javitt, Nitric oxide synthase interneurons in the monkey cerebral cortex are subsets of the somatostatin, neuropeptide Y, and calbindin cells, Brain Res, vol.863, pp.205-212, 2000.

N. Tamamaki, Y. Yanagawa, R. Tomioka, J. Miyazaki, K. Obata et al., Green fluorescent protein expression and colocalization with calretinin, parvalbumin, and somatostatin in the GAD67-GFP knock-in mouse, J. Comp. Neurol, vol.467, pp.60-79, 2003.

G. Tamas, E. H. Buhl, and P. Somogyi, Fast IPSPs elicited via multiple synaptic release sites by different types of GABAergic neurone in the cat visual cortex, J. Physiol, vol.500, pp.715-738, 1997.

R. Tomioka, K. Okamoto, T. Furuta, F. Fujiyama, T. Iwasato et al., Demonstration of long-range GABAergic connections distributed throughout the mouse neocortex, Eur. J. Neurosci, vol.21, pp.1587-1600, 2005.

R. Tomioka and K. S. Rockland, Long-distance corticocortical GABAergic neurons in the adult monkey white and gray matter, J. Comp. Neurol, vol.505, pp.526-538, 2007.

K. Tsuzuki, B. Lambolez, J. Rossier, and S. Ozawa, Absolute quantification of AMPA receptor subunit mRNAs in single hippocampal neurons, J. Neurochem, vol.77, pp.1650-1659, 2001.

J. G. Valtschanoff, R. J. Weinberg, V. N. Kharazia, H. H. Schmidt, M. Nakane et al., Neurons in rat cerebral cortex that synthesize nitric oxide: NADPH diaphorase histochemistry, NOS immunocytochemistry, and colocalization with GABA, Neurosci. Lett, vol.157, pp.157-161, 1993.

A. Vercelli, D. Garbossa, S. Biasiol, M. Repici, J. et al., NOS inhibition during postnatal development leads to increased ipsilateral retinocollicular and retinogeniculate projections in rats, Eur. J. Neurosci, vol.12, pp.473-490, 2000.

T. Vitalis and J. Rossier, New insights into cortical interneurons development and classification: contribution of developmental studies, Dev. Neurobiol, vol.71, pp.34-44, 2011.

M. Vruwink, H. H. Schmidt, R. J. Weinberg, and A. Burette, , 2001.

, Substance P and nitric oxide signaling in cerebral cortex: anatomical evidence for reciprocal signaling between two classes of interneurons, J. Comp. Neurol, vol.441, pp.288-301

K. Vucurovic, T. Gallopin, I. Ferezou, A. Rancillac, P. Chameau et al., , 2010.

, Serotonin 3A receptor subtype as an early and protracted marker of cortical interneuron subpopulations, Cereb. Cortex, vol.20, pp.2333-2347

J. H. Ward, Hierarchical grouping to optimize an objective function, J. Am. Stat. Assoc, vol.58, pp.236-244, 1963.

A. E. Wiencken and V. A. Casagrande, The distribution of NADPH diaphorase and nitric oxide synthetase (NOS) in relation to the functional compartments of areas V1 and V2 of primate visual cortex, Cereb. Cortex, vol.10, pp.499-511, 2000.

C. P. Wonders, A. , and S. A. , The origin and specification of cortical interneurons, Nat. Rev. Neurosci, vol.7, pp.687-696, 2006.

C. P. Wonders, L. Taylor, J. Welagen, I. C. Mbata, J. Z. Xiang et al., A spatial bias for the origins of interneuron subgroups within the medial ganglionic eminence, Dev. Biol, vol.314, pp.127-136, 2008.

Q. Xu, C. P. Wonders, A. , and S. A. , Sonic hedgehog maintains the identity of cortical interneuron progenitors in the ventral telencephalon, Development, vol.132, pp.4987-4998, 2005.

X. Xu, K. D. Roby, and E. M. Callaway, Immunochemical characterization of inhibitory mouse cortical neurons: three chemically distinct classes of inhibitory cells, J. Comp. Neurol, vol.518, pp.389-404, 2010.

X. X. Yan and L. J. Garey, Morphological diversity of nitric oxide synthesising neurons in mammalian cerebral cortex, J. Hirnforsch, vol.38, pp.165-172, 1997.

X. X. Yan, L. S. Jen, and L. J. Garey, NADPH-diaphorasepositive neurons in primate cerebral cortex colocalize with GABA and calcium-binding proteins, Cereb. Cortex, vol.6, pp.524-529, 1996.

L. Zhou and D. Y. Zhu, Neuronal nitric oxide synthase: structure, subcellular localization, regulation, and clinical implications, Nitric Oxide, vol.20, pp.223-230, 2009.