Your search keyword '"García-Contreras, Jonathan Alexis"' showing total 6 results

1. Piezo2 voltage-block regulates mechanical pain sensitivity.

Author

Sánchez-Carranza, Oscar, Chakrabarti, Sampurna, Kühnemund, Johannes, Schwaller, Fred, Bégay, Valérie, García-Contreras, Jonathan Alexis, Wang, Lin, and Lewin, Gary R

Subjects

MEMBRANE potential, DORSAL root ganglia, GENOME editing, SENSORY neurons, GAIN-of-function mutations

Abstract

PIEZO2 is a trimeric mechanically-gated ion channel expressed by most sensory neurons in the dorsal root ganglia. Mechanosensitive PIEZO2 channels are also genetically required for normal touch sensation in both mice and humans. We previously showed that PIEZO2 channels are also strongly modulated by membrane voltage. Specifically, it is only at very positive voltages that all channels are available for opening by mechanical force. Conversely, most PIEZO2 channels are blocked at normal negative resting membrane potentials. The physiological function of this unusual biophysical property of PIEZO2 channels, however, remained unknown. We characterized the biophysical properties of three PIEZO2 ion channel mutations at an evolutionarily conserved arginine (R2756). Using genome engineering in mice we generated Piezo2 R2756H/R2756H and Piezo2 R2756K/R2756K knock-in mice to characterize the physiological consequences of altering PIEZO2 voltage sensitivity in vivo. We measured endogenous mechanosensitive currents in sensory neurons isolated from the dorsal root ganglia and characterized mechanoreceptor and nociceptor function using electrophysiology. Mice were also assessed behaviourally and morphologically. Mutations at the conserved Arginine (R2756) dramatically changed the biophysical properties of the channel relieving voltage block and lowering mechanical thresholds for channel activation. Piezo2R2756H/R2756H and Piezo2R2756K/R2756K knock-in mice that were homozygous for gain-of-function mutations were viable and were tested for sensory changes. Surprisingly, mechanosensitive currents in nociceptors, neurons that detect noxious mechanical stimuli, were substantially sensitized in Piezo2 knock-in mice, but mechanosensitive currents in most mechanoreceptors that underlie touch sensation were only mildly affected by the same mutations. Single-unit electrophysiological recordings from sensory neurons innervating the glabrous skin revealed that rapidly-adapting mechanoreceptors that innervate Meissner's corpuscles exhibited slightly decreased mechanical thresholds in Piezo2 knock-in mice. Consistent with measurements of mechanically activated currents in isolated sensory neurons essentially all cutaneous nociceptors, both fast conducting Aδ-mechanonociceptors and unmyelinated C-fibre nociceptors were substantially more sensitive to mechanical stimuli and indeed acquired receptor properties similar to ultrasensitive touch receptors in Piezo2 knock-in mice. Mechanical stimuli also induced enhanced ongoing activity in cutaneous nociceptors in Piezo2 knock-in mice and hyper-sensitive PIEZO2 channels were sufficient alone to drive ongoing activity, even in isolated nociceptive neurons. Consistently, Piezo2 knock-in mice showed substantial behavioural hypersensitivity to noxious mechanical stimuli. Our data indicate that ongoing activity and sensitization of nociceptors, phenomena commonly found in human chronic pain syndromes, can be driven by relieving the voltage-block of PIEZO2 ion channels. Indeed, membrane depolarization caused by multiple noxious stimuli may sensitize nociceptors by relieving voltage-block of PIEZO2 channels. [ABSTRACT FROM AUTHOR]

Published

2024

2. Oral fatty acid taste sensitivity in healthy young individuals of both sexes is related to body mass index and soluble sCD36 serum levels

Author

Bricio-Barrios, Jaime Alberto, Toro-Equihua, Mario del, Huerta, Miguel, Ríos-Silva, Mónica, Cárdenas, Yolitzy, López, Marisa, Saavedra-Molina, Alfredo, Urzúa, Zorayda, Ortiz-Mesina, Mónica, Andrade-Urzúa, Felipa, García-Contreras, Jonathan Alexis, and Trujillo, Xóchitl

Subjects

Sensibilidad gustativa a ácidos grasos, BMI, IMC, Adiposidad, Jóvenes sanos, Fat acid taste sensitivity, Healthy young individuals, Índice de masa corporal, sCD36, Body mass index, Adiposity

Abstract

Introduction: CD36 is a membrane protein that functions as a lingual receptor for lipids. The soluble CD36 fraction (sCD36) may correlate oral fatty acid fat taste sensitivity to body mass index (BMI) and adiposity. Objectives: to determine if the oral fatty acid taste sensitivity in healthy young individuals of both sexes is related to serum sCD36 levels, adiposity and BMI. Methods: a cross-sectional study was conducted in 72 healthy young individuals (18-25 years). Serum sCD36 was quantified for all subjects. Oral fatty acid taste sensitivity was determined using an ascending series of the three-alternate forced choice methodology. Additionally, BMI was calculated using anthropometry, and adiposity was determined by bioelectric impedance analysis. Results: there was a positive correlation between BMI and the oral fatty acid taste sensitivity threshold (r = 0.277, p < 0.05) and a negative correlation between BMI and serum sCD36 levels (r = -0.035, p < 0.01). Adiposity negatively correlated with the sCD36 levels only in women (r = -0.359, p < 0.05). The threshold for oral sensitivity to fatty acids in overweight individuals was 1.0 (IQR 1.16) mM vs 0.2 (IQR 0.29) mM in healthy weight individuals (p < 0.05), while sCD36 levels were 26.1 pg/ml (IQR 32.9) and 77.97 pg/ml (IQR 560.66) in overweight and normal weight individuals, respectively (p < 0.05). Conclusions: BMI positively correlates with the oral sensitivity threshold of fatty acids and negatively correlates with serum sCD36 levels. The threshold of oral sensitivity to fatty acids was significantly higher in overweight subjects, while sCD36 levels were significantly higher in the group of normal weight individuals. Resumen Introducción: CD36 es una proteína de membrana que funciona como receptor lingual para lípidos. La fracción soluble del CD36 (sCD36) podría correlacionar la sensibilidad gustativa a los ácidos grasos orales con el índice de masa corporal (IMC) y con la adiposidad. Objetivos: determinar si la sensibilidad gustativa a ácidos grasos orales se relaciona con los niveles séricos de sCD36, la adiposidad y el IMC en jóvenes de ambos sexos. Métodos: estudio transversal en 72 adultos jóvenes (18-25 años). Se cuantificaron los niveles séricos de sCD36 para todos los sujetos. Se determinó la sensibilidad gustativa a los ácidos grasos orales usando la prueba triangular discriminatoria de concentraciones escaladas. Adicionalmente, se calculó el IMC usando antropometría y se determinó la adiposidad por análisis de bioimpedancia. Resultados: se encontró correlación positiva entre el IMC y el umbral de sensibilidad gustativa a los ácidos grasos orales (r = 0,277, p < 0,05) y una correlación negativa entre el IMC y los niveles séricos de sCD36 (r = −0,035, p < 0,01). La adiposidad, solo en mujeres se correlacionó negativamente con los niveles de sCD36 (r = −0,359, p < 0,05). El umbral para la sensibilidad gustativa a ácidos grasos orales en sujetos con sobrepeso fue 1,0 (IQR 1,16) mM vs. 0,2 (IQR 0,29) mM en sujetos con peso normal (p < 0,05), mientras que los niveles séricos de sCD36 fueron de 26,1 pg/ml (IQR 32,9) en sujetos con sobrepeso y 77,97 pg/ml (IQR 560,66) en sujetos con peso normal, respectivamente (p < 0,05). Conclusiones: el IMC se correlaciona positivamente con el umbral para la sensibilidad oral a los ácidos grasos y negativamente se correlaciona con los niveles séricos de sCD36. El umbral de sensibilidad oral a los ácidos grasos fue significativamente mayor en sujetos con sobrepeso, mientras que los niveles de sCD36 fueron significativamente más altos en el grupo de sujetos con peso normal.

Published

2020

3. Oral fatty acid taste sensitivity in healthy young individuals of both sexes is related to body mass index and soluble cd36 serum levels

Author

Trujillo, Xochitl, primary, Bricio-barrios, Jaime Alberto, additional, Del Toro-equihua, Mario, additional, Huerta, Miguel, additional, Ríos-silva, Mónica, additional, Cárdenas, Yolitzy, additional, López, Marisa, additional, Saavedra-molina, Alfredo, additional, Urzúa, Zorayda, additional, Ortiz-mesina, Mónica, additional, Andrade-urzúa, Felipa, additional, and García-contreras, Jonathan Alexis, additional

Published

2019

4. La sensibilidad oral a ácidos grasos en jóvenes sanos de ambos sexos está relacionada con el índice de masa corporal y los niveles séricos de sCD36.

Author

Alberto Bricio-Barrios, Jaime, del Toro-Equihua, Mario, Huerta, Miguel, Ríos-Silva, Mónica, Cárdenas, Yolitzy, López, Marisa, Saavedra-Molina, Alfredo, Urzúa, Zorayda, Ortiz-Mesina, Mónica, Andrade-Urzúa, Felipa, Alexis García-Contreras, Jonathan, Trujillo, Xóchitl, Bricio-Barrios, Jaime Alberto, García-Contreras, Jonathan Alexis, and Trujillo, Xochitl

Subjects

*CROSS-sectional method, *BODY mass index, *TASTE, *FATTY acids, *ADIPOSE tissues

Abstract

Introduction: Introduction: CD36 is a membrane protein that functions as a lingual receptor for lipids. The soluble CD36 fraction (sCD36) may correlate oral fatty acid fat taste sensitivity to body mass index (BMI) and adiposity. Objectives: to determine if the oral fatty acid taste sensitivity in healthy young individuals of both sexes is related to serum sCD36 levels, adiposity and BMI. Methods: a cross-sectional study was conducted in 72 healthy young individuals (18-25 years). Serum sCD36 was quantified for all subjects. Oral fatty acid taste sensitivity was determined using an ascending series of the three-alternate forced choice methodology. Additionally, BMI was calculated using anthropometry, and adiposity was determined by bioelectric impedance analysis. Results: there was a positive correlation between BMI and the oral fatty acid taste sensitivity threshold (r = 0.277, p < 0.05) and a negative correlation between BMI and serum sCD36 levels (r = -0.035, p < 0.01). Adiposity negatively correlated with the sCD36 levels only in women (r = -0.359, p < 0.05). The threshold for oral sensitivity to fatty acids in overweight individuals was 1.0 (IQR 1.16) mM vs 0.2 (IQR 0.29) mM in healthy weight individuals (p < 0.05), while sCD36 levels were 26.1 pg/ml (IQR 32.9) and 77.97 pg/ml (IQR 560.66) in overweight and normal weight individuals, respectively (p < 0.05). Conclusions: BMI positively correlates with the oral sensitivity threshold of fatty acids and negatively correlates with serum sCD36 levels. The threshold of oral sensitivity to fatty acids was significantly higher in overweight subjects, while sCD36 levels were significantly higher in the group of normal weight individuals. [ABSTRACT FROM AUTHOR]

Published

2019

5. Piezo2 voltage-block regulates mechanical pain sensitivity.

Author

Sánchez-Carranza O, Chakrabarti S, Kühnemund J, Schwaller F, Bégay V, García-Contreras JA, Wang L, and Lewin GR

Subjects

Animals, Mice, Nociceptors physiology, Nociceptors metabolism, Male, Mutation, Mechanoreceptors physiology, Mechanoreceptors metabolism, Pain Threshold physiology, Gene Knock-In Techniques, Mechanotransduction, Cellular physiology, Mice, Transgenic, Female, Membrane Potentials physiology, Sensory Receptor Cells physiology, Sensory Receptor Cells metabolism, Pain physiopathology, Pain genetics, Mice, Inbred C57BL, Ion Channels genetics, Ganglia, Spinal metabolism

Abstract

PIEZO2 is a trimeric mechanically-gated ion channel expressed by most sensory neurons in the dorsal root ganglia. Mechanosensitive PIEZO2 channels are also genetically required for normal touch sensation in both mice and humans. We previously showed that PIEZO2 channels are also strongly modulated by membrane voltage. Specifically, it is only at very positive voltages that all channels are available for opening by mechanical force. Conversely, most PIEZO2 channels are blocked at normal negative resting membrane potentials. The physiological function of this unusual biophysical property of PIEZO2 channels, however, remained unknown. We characterized the biophysical properties of three PIEZO2 ion channel mutations at an evolutionarily conserved arginine (R2756). Using genome engineering in mice we generated Piezo2R2756H/R2756H and Piezo2R2756K/R2756K knock-in mice to characterize the physiological consequences of altering PIEZO2 voltage sensitivity in vivo. We measured endogenous mechanosensitive currents in sensory neurons isolated from the dorsal root ganglia and characterized mechanoreceptor and nociceptor function using electrophysiology. Mice were also assessed behaviourally and morphologically. Mutations at the conserved Arginine (R2756) dramatically changed the biophysical properties of the channel relieving voltage block and lowering mechanical thresholds for channel activation. Piezo2R2756H/R2756H and Piezo2R2756K/R2756K knock-in mice that were homozygous for gain-of-function mutations were viable and were tested for sensory changes. Surprisingly, mechanosensitive currents in nociceptors, neurons that detect noxious mechanical stimuli, were substantially sensitized in Piezo2 knock-in mice, but mechanosensitive currents in most mechanoreceptors that underlie touch sensation were only mildly affected by the same mutations. Single-unit electrophysiological recordings from sensory neurons innervating the glabrous skin revealed that rapidly-adapting mechanoreceptors that innervate Meissner's corpuscles exhibited slightly decreased mechanical thresholds in Piezo2 knock-in mice. Consistent with measurements of mechanically activated currents in isolated sensory neurons essentially all cutaneous nociceptors, both fast conducting Aδ-mechanonociceptors and unmyelinated C-fibre nociceptors were substantially more sensitive to mechanical stimuli and indeed acquired receptor properties similar to ultrasensitive touch receptors in Piezo2 knock-in mice. Mechanical stimuli also induced enhanced ongoing activity in cutaneous nociceptors in Piezo2 knock-in mice and hyper-sensitive PIEZO2 channels were sufficient alone to drive ongoing activity, even in isolated nociceptive neurons. Consistently, Piezo2 knock-in mice showed substantial behavioural hypersensitivity to noxious mechanical stimuli. Our data indicate that ongoing activity and sensitization of nociceptors, phenomena commonly found in human chronic pain syndromes, can be driven by relieving the voltage-block of PIEZO2 ion channels. Indeed, membrane depolarization caused by multiple noxious stimuli may sensitize nociceptors by relieving voltage-block of PIEZO2 channels., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2024

6. Oral fatty acid taste sensitivity in healthy young individuals of both sexes is related to body mass index and soluble CD36 serum levels.

Author

Bricio-Barrios JA, Del Toro-Equihua M, Huerta M, Ríos-Silva M, Cárdenas Y, López M, Saavedra-Molina A, Urzúa Z, Ortiz-Mesina M, Andrade-Urzúa F, García-Contreras JA, and Trujillo X

Subjects

Adiposity, Adolescent, Adult, Cross-Sectional Studies, Female, Humans, Male, Young Adult, Body Mass Index, CD36 Antigens blood, Fatty Acids, Taste

Abstract

Introduction: Introduction: CD36 is a membrane protein that functions as a lingual receptor for lipids. The soluble CD36 fraction (sCD36) may correlate oral fatty acid fat taste sensitivity to body mass index (BMI) and adiposity. Objectives: to determine if the oral fatty acid taste sensitivity in healthy young individuals of both sexes is related to serum sCD36 levels, adiposity and BMI. Methods: a cross-sectional study was conducted in 72 healthy young individuals (18-25 years). Serum sCD36 was quantified for all subjects. Oral fatty acid taste sensitivity was determined using an ascending series of the three-alternate forced choice methodology. Additionally, BMI was calculated using anthropometry, and adiposity was determined by bioelectric impedance analysis. Results: there was a positive correlation between BMI and the oral fatty acid taste sensitivity threshold (r = 0.277, p < 0.05) and a negative correlation between BMI and serum sCD36 levels (r = -0.035, p < 0.01). Adiposity negatively correlated with the sCD36 levels only in women (r = -0.359, p < 0.05). The threshold for oral sensitivity to fatty acids in overweight individuals was 1.0 (IQR 1.16) mM vs 0.2 (IQR 0.29) mM in healthy weight individuals (p < 0.05), while sCD36 levels were 26.1 pg/ml (IQR 32.9) and 77.97 pg/ml (IQR 560.66) in overweight and normal weight individuals, respectively (p < 0.05). Conclusions: BMI positively correlates with the oral sensitivity threshold of fatty acids and negatively correlates with serum sCD36 levels. The threshold of oral sensitivity to fatty acids was significantly higher in overweight subjects, while sCD36 levels were significantly higher in the group of normal weight individuals.

Published

2019