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1.
Am J Physiol Gastrointest Liver Physiol ; 326(2): G176-G186, 2024 02 01.
Artículo en Inglés | MEDLINE | ID: mdl-38084411

RESUMEN

Abdominal pain is a cardinal symptom of inflammatory bowel disease (IBD). Transient receptor potential (TRP) channels contribute to abdominal pain in preclinical models of IBD, and TRP melastatin 3 (TRPM3) has recently been implicated in inflammatory bladder and joint pain in rodents. We hypothesized that TRPM3 is involved in colonic sensation and is sensitized during colitis. We used immunohistochemistry, ratiometric Ca2+ imaging, and colonic afferent nerve recordings in mice to evaluate TRPM3 protein expression in colon-projecting dorsal root ganglion (DRG) neurons, as well as functional activity in DRG neurons and colonic afferent nerves. Colitis was induced using dextran sulfate sodium (DSS) in drinking water. TRPM3 protein expression was observed in 76% of colon-projecting DRG neurons and was often colocalized with calcitonin gene-related peptide. The magnitudes of intracellular Ca2+ transients in DRG neurons in response to the TRPM3 agonists CIM-0216 and pregnenolone sulfate sodium were significantly greater in neurons from mice with colitis compared with controls. In addition, the percentage of DRG neurons from mice with colitis that responded to CIM-0216 was significantly increased. CIM-0216 also increased the firing rate of colonic afferent nerves from control and mice with colitis. The TRPM3 inhibitor isosakuranetin inhibited the mechanosensitive response to distension of wide dynamic range afferent nerve units from mice with colitis but had no effect in control mice. Thus, TRPM3 contributes to colonic sensory transduction and may be a potential target for treating pain in IBD.NEW & NOTEWORTHY This is the first study to characterize TRPM3 protein expression and function in colon-projecting DRG neurons. A TRPM3 agonist excited DRG neurons and colonic afferent nerves from healthy mice. TRPM3 agonist responses in DRG neurons were elevated during colitis. Inhibiting TRPM3 reduced the firing of wide dynamic range afferent nerves from mice with colitis but had no effect in control mice.


Asunto(s)
Colitis , Enfermedades Inflamatorias del Intestino , Canales Catiónicos TRPM , Ratones , Animales , Colitis/metabolismo , Enfermedades Inflamatorias del Intestino/metabolismo , Neuronas/metabolismo , Ganglios Espinales , Colon/inervación , Dolor Abdominal , Canales Catiónicos TRPM/genética , Canales Catiónicos TRPM/metabolismo
2.
J Comp Neurol ; 532(2): e25563, 2024 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-37986234

RESUMEN

Following peripheral nerve injury, postganglionic sympathetic axons sprout into the affected sensory ganglia and form perineuronal sympathetic plexuses with somata of sensory neurons. This sympathosensory coupling contributes to the onset and persistence of injury-induced chronic pain. We have documented the presence of similar sympathetic plexuses in the trigeminal ganglia of adult mice that ectopically overexpress nerve growth factor (NGF), in the absence of nerve injury. In this study, we sought to further define the phenotype(s) of these trigeminal sensory neurons having sympathetic plexuses in our transgenic mice. Using quantitative immunofluorescence staining analyses, we show that the invading sympathetic axons specifically target sensory somata immunopositive for several biomarkers: NGF high-affinity receptor tyrosine kinase A (trkA), calcitonin gene-related peptide (CGRP), neurofilament heavy chain (NFH), and P2X purinoceptor 3 (P2X3). Based on these phenotypic characteristics, the majority of the sensory somata surrounded by sympathetic plexuses are likely to be NGF-responsive nociceptors (i.e., trkA expressing) that are peptidergic (i.e., CGRP expressing), myelinated (i.e., NFH expressing), and ATP sensitive (i.e., P2X3 expressing). Our data also show that very few sympathetic plexuses surround sensory somata expressing other nociceptive (pain) biomarkers, including substance P and acid-sensing ion channel 3. No sympathetic plexuses are associated with sensory somata that display isolectin B4 binding. Though the cellular mechanisms that trigger the formation of sympathetic plexus (with and without nerve injury) remain unknown, our new observations yield an unexpected specificity with which invading sympathetic axons appear to target a precise subtype of nociceptors. This selectivity likely contributes to pain development and maintenance associated with sympathosensory coupling.


Asunto(s)
Factor de Crecimiento Nervioso , Ganglio del Trigémino , Ratones , Animales , Ratones Transgénicos , Ganglio del Trigémino/metabolismo , Factor de Crecimiento Nervioso/análisis , Factor de Crecimiento Nervioso/genética , Factor de Crecimiento Nervioso/metabolismo , Péptido Relacionado con Gen de Calcitonina/metabolismo , Neuronas Aferentes/fisiología , Células Receptoras Sensoriales/metabolismo , Dolor/metabolismo , Fenotipo , Biomarcadores/análisis , Ganglios Simpáticos/metabolismo
3.
Horm Mol Biol Clin Investig ; 24(2): 101-15, 2015 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-26613332

RESUMEN

BACKGROUND: This study examined the effect of insulin sensitivity on the responsiveness of appetite regulatory brain regions to visual food cues. MATERIALS AND METHODS: Nineteen participants diagnosed with polycystic ovary syndrome (PCOS) were divided into insulin-sensitive (n=8) and insulin-resistant (n=11) groups based on the homeostatic model assessment of insulin resistance (HOMA2-IR). Subjects underwent functional magnetic resonance imaging (fMRI) while viewing food pictures following water or dextrose consumption. The corticolimbic blood oxygen level dependent (BOLD) responses to high-calorie (HC) or low-calorie (LC) food pictures were compared within and between groups. RESULTS: BOLD responses to food pictures were reduced during a glucose challenge in numerous corticolimbic brain regions in insulin-sensitive but not insulin-resistant subjects. Furthermore, the degree of insulin resistance positively correlated with the corticolimbic BOLD response in the medial prefrontal cortex (mPFC), orbitofrontal cortex (OFC), anterior cingulate and ventral tegmental area (VTA) in response to HC pictures, and in the dorsolateral prefrontal cortex (DLPFC), mPFC, anterior cingulate, and insula in response to LC pictures following a glucose challenge. BOLD signal in the OFC, midbrain, hippocampus, and amygdala following a glucose challenge correlated with HOMA2-IR in response to HC-LC pictures. CONCLUSION: We conclude that the normal inhibition of corticolimbic brain responses to food pictures during a glucose challenge is compromised in insulin-resistant subjects. The increase in brain responsiveness to food pictures during postprandial hyperinsulinemia may lead to greater non-homeostatic eating and perpetuate obesity in insulin-resistant subjects.


Asunto(s)
Regulación del Apetito , Regulación hacia Abajo , Resistencia a la Insulina , Lóbulo Límbico/metabolismo , Neuronas/metabolismo , Síndrome del Ovario Poliquístico/metabolismo , Adolescente , Adulto , Índice de Masa Corporal , Señales (Psicología) , Femenino , Alimentos , Neuroimagen Funcional , Humanos , Imagen por Resonancia Magnética , Obesidad/complicaciones , Sobrepeso/complicaciones , Estimulación Luminosa , Fotograbar , Síndrome del Ovario Poliquístico/sangre , Síndrome del Ovario Poliquístico/complicaciones , Adulto Joven
4.
Brain Res ; 1558: 44-56, 2014 Apr 16.
Artículo en Inglés | MEDLINE | ID: mdl-24583185

RESUMEN

We postulate that insulin regulation of food intake is compromised when insulin resistance is present. In order to investigate the effect of insulin sensitivity on appetitive brain responses, we conducted functional magnetic resonance imaging studies in a group of women diagnosed with polycystic ovary syndrome (PCOS) in which insulin sensitivity ranged from normal to resistant. Subjects (n=19) were imaged while viewing pictures of high calorie (HC) foods and low calorie (LC) foods after ingesting either 75 g glucose or an equivalent volume of water. The insulin sensitive group showed reduced blood oxygen level dependent (BOLD) signal in response to food pictures following glucose ingestion in numerous corticolimbic brain regions, whereas the insulin resistant group did not. There was a significant interaction between insulin sensitivity (sensitive vs resistant) and condition (water vs glucose). The largest clusters identified included the left insula, bilateral limbic/parahippocampal gyrus/culmen/midbrain, bilateral limbic lobe/precuneus, and left superior/mid temporal gyrus/parietal for HC and LC stimuli combined, the left parahippocampal gyrus/fusiform/pulvinar/midbrain for HC pictures, and the left superior/mid temporal gyrus/parietal and middle/inferior frontal gyrus/orbitofrontal cortex for LC pictures. Furthermore, BOLD signal in the anterior cingulate, medial frontal gyrus, posterior cingulate/precuneus, and parietal cortex during a glucose challenge correlated negatively with insulin sensitivity. We conclude the PCOS women with insulin resistance have an impaired brain response to a glucose challenge. The inability of postprandial hyperinsulinemia to inhibit brain responsiveness to food cues in insulin resistant subjects may lead to greater non-homeostatic eating.


Asunto(s)
Apetito/efectos de los fármacos , Encéfalo/fisiopatología , Señales (Psicología) , Alimentos , Glucosa/farmacología , Síndrome del Ovario Poliquístico , Adolescente , Adulto , Índice de Masa Corporal , Encéfalo/irrigación sanguínea , Encéfalo/efectos de los fármacos , Femenino , Humanos , Procesamiento de Imagen Asistido por Computador , Insulina/farmacología , Resistencia a la Insulina , Masculino , Oxígeno/sangre , Estimulación Luminosa , Síndrome del Ovario Poliquístico/patología , Síndrome del Ovario Poliquístico/fisiopatología , Síndrome del Ovario Poliquístico/psicología , Adulto Joven
5.
Obesity (Silver Spring) ; 21(6): 1215-22, 2013 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-23913733

RESUMEN

OBJECTIVE: Insulin is one of several molecules that transmit information about energy balance to the brain. It has been hypothesized that insulin resistance fosters non-homeostatic eating. The objective of the current study was to characterize corticolimbic brain responses to appetitive stimuli in subjects with insulin sensitivities ranging from resistant to normal. DESIGN AND METHODS: Sixteen women diagnosed with polycystic ovary syndrome (PCOS) underwent functional magnetic resonance imaging (fMRI) while viewing pictures of high calorie (HC) foods, low calorie (LC) foods, and control (C) pictures. RESULTS: A region of interest analysis of the blood oxygen level dependent (BOLD) signal revealed widespread activation within corticolimbic regions in response to food pictures. Activated regions included the dorsolateral prefrontal cortex (DLPFC), medial prefrontal cortex (mPFC) , insula, nucleus accumbens (NAc), pallidum, ventral tegmental area (VTA), putamen, amygdala, caudate, substantia nigra, hippocampus, pulvinar, and midbrain. Activation of the anterior cingulate, dorsolateral prefrontal cortex (DLPFC), and midbrain by HC food pictures (HC - C) and activation of the lateral orbitofrontal cortex (OFC), pallidum, substantia nigra, ventral tegmental area (VTA), pulvinar, and midbrain by LC food pictures (LC - C) was negatively correlated with insulin sensitivity. In contrast, activation of the OFC, DLPFC, insula, hypothalamus, pallidum, substantia nigra, VTA, pulvinar, and midbrain by the HC - LC contrast was positively correlated with insulin sensitivity, whereas activation of the caudate was negatively correlated. CONCLUSIONS: The association between insulin sensitivity and corticolimbic responses to food pictures may reflect abnormal brain responses to insulin feedback that contribute to the development and or perpetuation of obesity in PCOS.


Asunto(s)
Conducta de Elección/fisiología , Preferencias Alimentarias/fisiología , Resistencia a la Insulina , Síndrome del Ovario Poliquístico/metabolismo , Adolescente , Adulto , Apetito/fisiología , Índice de Masa Corporal , Restricción Calórica , Corteza Cerebral/fisiología , Dieta , Femenino , Hipocampo/fisiología , Humanos , Procesamiento de Imagen Asistido por Computador , Imagen por Resonancia Magnética , Neuroimagen , Corteza Prefrontal/fisiología , Análisis de Regresión , Adulto Joven
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