Evidence That the Sympathetic Nervous System Elicits Rapid, Coordinated, and Reciprocal Adjustments of Insulin Secretion and Insulin Sensitivity During Cold Exposure

Morton, Gregory J.; Muta, Kenjiro; Kaiyala, Karl J.; Rojas, Juan; Scarlett, Jarrad; Matsen, Miles E.; Nelson, Jarrell T.; Acharya, Nikhil; Piccinini, Francesca; Stefanovski, Darko; Bergman, Richard N.; Taborsky, Gerald J.; Kahn, Steven E.; Schwartz, Michael W.

doi:10.2337/db16-1351

Cited by 39 publications

(54 citation statements)

References 37 publications

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“…During insulin-resistant conditions such as obesity (Buchanan et al, 1990; Kahn et al, 1993; Moran et al, 1999), for example, preservation of normal glucose tolerance requires a proportionate increase of insulin secretion while conversely, states of increased insulin sensitivity (e.g., exercise, weight loss or cold exposure) (Bukowiecki, 1989) require a compensatory reduction of insulin secretion to avert hypoglycemia. Consistent with this concept, the relationship between insulin secretion and insulin sensitivity is hyperbolic across multiple species including humans (Kahn et al, 1993), dogs (Stefanovski et al, 2011), and rats (Morton et al, 2017). Consequently, the product of the two (referred to as the Disposition Index (DI), a measure of insulin-mediated glucose disposal) tends to remain constant in normal individuals, such that glucose tolerance remains unchanged even in the face of conditions that strongly impact tissue glucose utilization.…”

Section: Introductionmentioning

confidence: 78%

“…Our recent work demonstrates that relative to those housed at room temperature, rats exposed to at 5°C for 28 h (without access to food, to avoid the confounding effects on food intake) exhibited a marked increase of insulin sensitivity, yet glucose tolerance remained unchanged owing to a precisely calibrated compensatory decrease of insulin secretion (Morton et al, 2017). As a first step to investigate the time-course over which these responses to cold exposure are mounted, we compared measurements of blood glucose and plasma insulin levels in fasted rats that were either exposed to cold (5°C) or housed at room temperature for 4, 8 or 28 h. As expected, blood glucose levels declined steadily in both groups as a result of the increased duration of fasting.…”

Section: Resultsmentioning

confidence: 99%

“…Specifically, maintenance of core body temperature in a cold environment depends upon increased heat production (Morrison, 2016) that in turn is coupled to marked increases of insulin sensitivity and glucose uptake into thermogenic tissues (Smith et al, 1986), with glucose tolerance remaining unchanged owing to a compensatory reduction of insulin secretion (Morton et al, 2017; Vallerand et al, 1983). Moreover, the effect of cold exposure to elicit these rapid, potent and reciprocal changes of insulin sensitivity and insulin secretion appears to depend upon increased sympathetic nervous system (SNS) outflow, since the effects are rapidly reversed by intravenous infusion of the alpha-adrenergic receptor antagonist, phentolamine (Morton et al, 2017). Taken together, these findings implicate the brain in adaptive changes of insulin secretion and insulin sensitivity that preserve normal glucose tolerance during cold exposure.…”

Section: Introductionmentioning

confidence: 99%

“…Accordingly, we reasoned that if the potent effect of cold exposure on insulin secretion and insulin sensitivity is coordinated by POA neurocircuits, these responses should be elicited by direct cooling of this brain area. We therefore developed and validated a water-circulating thermode with which to cool the POA of rats, and utilized this approach to determine whether cold- induced activation of POA neurocircuits is sufficient to recapitulate the effect of cold exposure on determinants of glucose tolerance (Morton et al, 2017). …”

Section: Introductionmentioning

confidence: 99%

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Glucoregulatory responses to hypothalamic preoptic area cooling

et al. 2019

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Normal glucose homeostasis depends on the capacity of pancreatic β-cells to adjust insulin secretion in response to a change of tissue insulin sensitivity. In cold environments, for example, the dramatic increase of insulin sensitivity required to ensure a sufficient supply of glucose to thermogenic tissues is offset by a proportionate reduction of insulin secretion, such that overall glucose tolerance is preserved. That these cold-induced changes of insulin secretion and insulin sensitivity are dependent on the sympathetic nervous system (SNS) outflow suggests a key role for thermoregulatory neurons in the hypothalamic preoptic area (POA) in this metabolic response. As these POA neurons are themselves sensitive to changes in local hypothalamic temperature, we hypothesized that direct cooling of the POA would elicit the same glucoregulatory responses that we observed during cold exposure. To test this hypothesis, we used a thermode to cool the POA area, and found that as predicted, short-term (8-h) intense POA cooling reduced glucose-stimulated insulin secretion (GSIS), yet glucose tolerance remained unchanged due to an increase of insulin sensitivity. Longer-term (24-h), more moderate POA cooling, however, failed to inhibit GSIS and improved glucose tolerance, an effect associated with hyperthermia and activation of the hypothalamic-pituitary-adrenal axis, indicative of a stress response. Taken together, these findings suggest that POA cooling is sufficient to recapitulate key glucoregulatory responses to cold exposure.

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Section: Introductionmentioning

confidence: 78%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Glucoregulatory responses to hypothalamic preoptic area cooling

et al. 2019

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“…The estimation of the S I and S G index of glucose ingestion had been an interesting research in present years with a number of different models developed for the study of this situation. Mari et al (2002) proposed a comparison of several OGTT-based methods, including one in which the glucose clearance was not described by the minimal model (Kim et al, 2014;Morton et al, 2017). Dalla Man et al (2002) proposed a glucose tracer method to validate the S I and S G index from the OGTT methods.…”

Section: Introductionmentioning

confidence: 99%

Study of Modified Oral Minimal Model using n-Order Decay Rate of Plasma Insulin for the Oral Glucose Tolerance Test in Subjects with Normal, Impaired and Diabetic Glucose Tolerance

Kartono¹,

Putri²,

Setiawan³

et al. 2017

American Journal of Applied Sciences

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In this present study, the modified Oral Minimal Model (OMM), with secretion of insulin from pancreas was assumed that the insulin decay rate was not always a first-orderly process in the Oral Glucose Tolerance Test (OGTT), had been developed to study Normal Glucose Tolerance (NGT), Impaired Glucose Tolerance (IGT or pre-diabetes) and type 2 Diabetes Mellitus (T2DM) subjects. The modified OMM model was used to assess physiological functions which were insulin sensitivity (S I ) and glucose effectiveness (S G ) from the OGTT data. The results of the modified OMM model fit to the measured glucose and insulin concentration-time profiles in the OGTT process of the subjects. The single-step fitting process to optimize the real pAarameters of the S I and S G index from the experimental data using the modified OMM. Our results showed that all NGT subjects had higher the S I and S G index than all IGT and T2DM subjects following the OGTT process. Basal and large peak glucose were lower in all NGT subjects than in all IGT and T2DM subjects. Insulin extraction was lower in all subjects with T2DM but was almost similar for the NGT and IGT subjects. The averaged correlation between measured and this present model, commonly called R 2 value, showed that these four cases were 0.96 which indicated good agreement.

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