2024-03-29T11:50:31Zhttps://uvadoc.uva.es/oai/requestoai:uvadoc.uva.es:10324/71372021-06-23T09:51:23Zcom_10324_1134com_10324_931com_10324_894col_10324_1213
González, Constancio
Agapito Serrano, María Teresa
Rocher Martín, María Asunción
Gómez Niño, María Ángeles
Rigual Bonastre, Ricardo Jaime
Castañeda, Javier
Conde, J. V.
Obeso Cáceres, Ana María de la Luz
2010
Producción Científica
Oxygen-sensing and transduction in purposeful responses in cells and organisms is of great physiological
and medical interest. All animals, including humans, encounter in their lifespan many situations in which
oxygen availability might be insufficient, whether acutely or chronically, physiologically or pathologically.
Therefore to trace at the molecular level the sequence of events or steps connecting the oxygen
deficit with the cell responses is of interest in itself as an achievement of science. In addition, it is also of
great medical interest as such knowledge might facilitate the therapeutical approach to patients and to
design strategies to minimize hypoxic damage. In our article we define the concepts of sensors and transducers,
the steps of the hypoxic transduction cascade in the carotid body chemoreceptor cells and also
discuss current models of oxygen- sensing (bioenergetic, biosynthetic and conformational) with their
supportive and unsupportive data from updated literature. We envision oxygen-sensing in carotid body
chemoreceptor cells as a process initiated at the level of plasma membrane and performed by a hemoprotein,
which might be NOX4 or a hemoprotein not yet chemically identified. Upon oxygen-desaturation,
the sensor would experience conformational changes allosterically transmitted to oxygen regulated K+
channels, the initial effectors in the transduction cascade. A decrease in their opening probability would
produce cell depolarization, activation of voltage dependent calcium channels and release of neurotransmitters.
Neurotransmitters would activate the nerve endings of the carotid body sensory nerve to convey
the information of the hypoxic situation to the central nervous system that would command ventilation
to fight hypoxia.
application/pdf
http://uvadoc.uva.es/handle/10324/7137
eng
Elsevier
Neurofisiología
A revisit to O2 sensing and transduction in the carotid body chemoreceptors in the context of reactive oxygen species biology
info:eu-repo/semantics/article
TEXT
UVaDOC. Repositorio Documental de la Universidad de Valladolid
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