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1.
Proc Natl Acad Sci U S A ; 120(5): e2202435120, 2023 01 31.
Artigo em Inglês | MEDLINE | ID: mdl-36693103

RESUMO

The neural circuit of the brain is organized as a hierarchy of functional units with wide-ranging connections that support information flow and functional connectivity. Studies using MRI indicate a moderate coupling between structural and functional connectivity at the system level. However, how do connections of different directions (feedforward and feedback) and regions with different excitatory and inhibitory (E/I) neurons shape the hemodynamic activity and functional connectivity over the hierarchy are unknown. Here, we used functional MRI to detect optogenetic-evoked and resting-state activities over a somatosensory pathway in the mouse brain in relation to axonal projection and E/I distribution. Using a highly sensitive ultrafast imaging, we identified extensive activation in regions up to the third order of axonal projections following optogenetic excitation of the ventral posteriomedial nucleus of the thalamus. The evoked response and functional connectivity correlated with feedforward projections more than feedback projections and weakened with the hierarchy. The hemodynamic response exhibited regional and hierarchical differences, with slower and more variable responses in high-order areas and bipolar response predominantly in the contralateral cortex. Electrophysiological recordings suggest that these reflect differences in neural activity rather than neurovascular coupling. Importantly, the positive and negative parts of the hemodynamic response correlated with E/I neuronal densities, respectively. Furthermore, resting-state functional connectivity was more associated with E/I distribution, whereas stimulus-evoked effective connectivity followed structural wiring. These findings indicate that the structure-function relationship is projection-, cell-type- and hierarchy-dependent. Hemodynamic transients could reflect E/I activity and the increased complexity of hierarchical processing.


Assuntos
Conectoma , Acoplamento Neurovascular , Camundongos , Animais , Encéfalo/fisiologia , Mapeamento Encefálico/métodos , Hemodinâmica , Acoplamento Neurovascular/fisiologia , Imageamento por Ressonância Magnética , Vias Neurais/fisiologia , Rede Nervosa/fisiologia , Conectoma/métodos
2.
Elife ; 112022 03 17.
Artigo em Inglês | MEDLINE | ID: mdl-35297763

RESUMO

Feedforward inhibitory circuits are key contributors to the complex interplay between excitation and inhibition in the brain. Little is known about the function of feedforward inhibition in the primary olfactory (piriform) cortex. Using in vivo two-photon-targeted patch clamping and calcium imaging in mice, we find that odors evoke strong excitation in two classes of interneurons - neurogliaform (NG) cells and horizontal (HZ) cells - that provide feedforward inhibition in layer 1 of the piriform cortex. NG cells fire much earlier than HZ cells following odor onset, a difference that can be attributed to the faster odor-driven excitatory synaptic drive that NG cells receive from the olfactory bulb. As a result, NG cells strongly but transiently inhibit odor-evoked excitation in layer 2 principal cells, whereas HZ cells provide more diffuse and prolonged feedforward inhibition. Our findings reveal unexpected complexity in the operation of inhibition in the piriform cortex.


Assuntos
Córtex Olfatório , Córtex Piriforme , Animais , Camundongos , Odorantes , Bulbo Olfatório/fisiologia , Córtex Olfatório/fisiologia , Condutos Olfatórios/fisiologia , Córtex Piriforme/fisiologia , Olfato/fisiologia
3.
Proc Natl Acad Sci U S A ; 114(9): 2407-2412, 2017 02 28.
Artigo em Inglês | MEDLINE | ID: mdl-28196887

RESUMO

Neurons in the neocortex exhibit spontaneous spiking activity in the absence of external stimuli, but the origin and functions of this activity remain uncertain. Here, we show that spontaneous spiking is also prominent in a sensory paleocortex, the primary olfactory (piriform) cortex of mice. In the absence of applied odors, piriform neurons exhibit spontaneous firing at mean rates that vary systematically among neuronal classes. This activity requires the participation of NMDA receptors and is entirely driven by bottom-up spontaneous input from the olfactory bulb. Odor stimulation produces two types of spatially dispersed, odor-distinctive patterns of responses in piriform cortex layer 2 principal cells: Approximately 15% of cells are excited by odor, and another approximately 15% have their spontaneous activity suppressed. Our results show that, by allowing odor-evoked suppression as well as excitation, the responsiveness of piriform neurons is at least twofold less sparse than currently believed. Hence, by enabling bidirectional changes in spiking around an elevated baseline, spontaneous activity in the piriform cortex extends the dynamic range of odor representation and enriches the coding space for the representation of complex olfactory stimuli.


Assuntos
Potenciais de Ação/fisiologia , Odorantes/análise , Condutos Olfatórios/fisiologia , Percepção Olfatória/fisiologia , Córtex Piriforme/fisiologia , Células Receptoras Sensoriais/metabolismo , Olfato/fisiologia , Animais , Feminino , Expressão Gênica , Masculino , Camundongos , Camundongos Endogâmicos C57BL , Bulbo Olfatório/anatomia & histologia , Bulbo Olfatório/citologia , Bulbo Olfatório/fisiologia , Condutos Olfatórios/anatomia & histologia , Técnicas de Patch-Clamp , Córtex Piriforme/anatomia & histologia , Córtex Piriforme/citologia , Receptores de N-Metil-D-Aspartato/genética , Receptores de N-Metil-D-Aspartato/metabolismo , Células Receptoras Sensoriais/classificação , Células Receptoras Sensoriais/citologia , Técnicas Estereotáxicas
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