Effects of Estradiol on Glycemic and CNS Neuronal Activational Responses to Recurrent Insulin-Induced Hypoglycemia in the Ovariectomized Female Rat

Nedungadi, T. Prashant; Goleman, W.L.; Paranjape, Sachin A.; Kale, Ajay; Briski, Karen P.

doi:10.1159/000098039

Cited by 27 publications

(34 citation statements)

References 40 publications

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“…This study did not affirm our prediction of parallelism of adaptation of A2 nerve cell DβH protein expression and DVC Fos immunolabeling (Nedungadi et al 2006) in both estradiol-and oil-implanted OVX rats. Rather, evidence for divergence of these two parameters, independent of estradiol status, detracts from our working assumption that hypoglycemia-induced DVC Fos immunoreactivity is a reliable indicator of metabolo-sensory neuron signaling.…”

Section: Acclimation Of A2 Neuron Dβh Enzyme Protein Expression To Hycontrasting

confidence: 99%

“…Estradiol delivery to the ovariectomized (OVX) female rat caudal hindbrain sustains uniformity of glycemic responses to repeated insulin dosing while vehicle controls exhibit delayed recovery from recurring hypoglycemia (Nedungadi and Briski 2012). Moreover, estradiol prevents habituation of hypoglycemia-associated nerve cell Fos immunostaining in the DVC (Nedungadi et al 2006). Estradiol may thus prevent cellular energy state adjustments over serial hypoglycemic bouts or, alternatively, may mask acquired cellular energy instability by promoting signals of energy balance.…”

Section: Introductionmentioning

confidence: 99%

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Impact of recurrent hypoglycemic stress on hindbrain A2 nerve cell energy metabolism and catecholamine biosynthesis: modulation by estradiol

Tamrakar¹,

Briski²

2017

Acta Neurobiologiae Experimentalis

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It is unclear if habituation of hindbrain A2 metabolo-sensory neurons to recurrent insulin-induced hypoglycemia (RIIH) correlates with estradiol-dependent adjustments in energy metabolism that favor positive energy balance. Laser-microdissected A2 cells from estradiolor oil-implanted ovariectomized female rats were analyzed by Western blot to assess effects of three prior daily insulin injections on basal and hypoglycemic patterns of catecholamine biosynthetic enzyme dopamine-beta-hydroxylase (DβH) and rate-limiting energy pathway enzyme protein expression. Precedent hypoglycemia respectively decreased or increased baseline DβH expression in estradiol-(E) vs. oil (O)-treated rats; this protein profile was further suppressed or augmented in those animals at 2 hr after re-induction of hypoglycemia. These data suggest that estradiol may curtail A2 noradrenergic-controlled functions both in the midst of and between hypoglycemic bouts. Results also show that prior hypoglycemia exposure upregulated A2 neuron glycolytic enzyme protein levels when E was present, and exerted differential effects on basal and hypoglycemia-associated respiratory chain and fatty acid synthetic pathway enzyme expression. E may thus accordingly amplify glycolysis-derived metabolites/energy, coupled with reduced reliance on oxidative phosphorylation, and activate the fatty acid synthetic pathway during RIIH. E may also be of benefit by preventing maladaptive reductions in A2 neuron Krebs cycle/electron transport enzyme expression during re-exposure to hypoglycemia. Augmentation of negative energy balance during this recurring metabolic stress in the absence of E is a likely impetus for augmented vs. decreased A2 signaling of energy imbalance by DβH in O vs. E rats during RIIH.

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Section: Acclimation Of A2 Neuron Dβh Enzyme Protein Expression To Hycontrasting

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Impact of recurrent hypoglycemic stress on hindbrain A2 nerve cell energy metabolism and catecholamine biosynthesis: modulation by estradiol

Tamrakar¹,

Briski²

2017

Acta Neurobiologiae Experimentalis

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“…Beginning on day 1, the animals in each group were injected with an intermediate-release formulation of insulin or diluent according to the following schedule: (1) subcutaneous injection of diluent on days 1–4 (n = 6); (2) subcutaneous injection of diluent on days 1–3, followed by 12.5 U/kg Humulin NPH (NPH) on day 4 (n = 6); (3) subcutaneous injection of NPH on days 1–3, followed by diluent on day 4, or (4) subcutaneous injection of NPH on days 1–4 (n = 6). We have reported [24] that this dose of NPH decreases the blood glucose levels from approximately 120 to 40 mg/dl in both EB- and oil-implanted OVX rats and that glycemic and central neuronal activational responses to one versus repeated injections were equivalent in the presence of estrogen, whereas hypoglycemia was amplified and the patterns of CNS Fos immunolabeling were diminished in the absence of this hormone.…”

Section: Methodsmentioning

confidence: 99%

Effects of Estradiol on Acute and Recurrent Insulin-Induced Hypoglycemia-Associated Patterns of Arcuate Neuropeptide Y, Proopiomelanocortin, and Cocaine- and Amphetamine-Related Transcript Gene Expression in the Ovariectomized Rat

Nedungadi

Briski

2007

Neuroendocrinology

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The ovarian steroid hormone, estradiol, is one of several peripheral metabolic signal modulators that are integrated at the level of the arcuate nucleus of the hypothalamus (ARH), and is implicated in the control of ARH neuropeptides that maintain energy balance, including neuropeptide Y (NPY) and proopiomelanocortin (POMC). The present studies utilized quantitative real-time RT-PCR techniques to examine the hypothesis that estradiol regulates ARH NPY, POMC, and cocaine- and amphetamine-related transcript (CART) gene expression during acute insulin-induced hypoglycemia (IIH) and that adaptive modifications in transcriptional reactivity during recurring exposure are steroid dependent. ARH tissue was obtained by micropunch dissection from estradiol benzoate- and oil-implanted ovariectomized (OVX) rats that were treated by subcutaneous injection of one or four doses of the intermediate insulin formulation, Humulin NPH, over as many days, or vehicle alone. Our data show that in OVX plus estradiol benzoate and OVX plus oil groups, a single injection of insulin did not modify gene expression profiles, with the exception of acute hypoglycemic reduction of ARH NPY transcripts in the presence of estrogen. Prior exposure to daily hypoglycemia significantly diminished basal NPY and POMC mRNA levels in estradiol benzoate-, but not oil-implanted OVX rats, but elevated baseline CART transcripts in oil-treated animals. Recurring IIH enhanced ARH NPY gene expression relative to baseline, irrespective of the estradiol manipulation, but net tissue levels were greater in the absence of estrogen. In contrast, reexposure to hypoglycemia decreased POMC and CART gene transcription in estradiol benzoate- and oil-implanted OVX animals, respectively, relative to the single-dose groups. These studies show that estrogen modulates the impact of precedent exposure to IIH on basal and/or hypoglycemia-associated patterns of expression of ARH neuropeptide genes of characterized significance for energy homeostasis. The novel evidence for transcriptional acclimation of NPY, POMC, and CART to recurring IIH supports the possibility that adaptation of compensatory behavioral and physiological responses to acute versus chronic exposure to this metabolic stress may reflect neural regulatory mechanisms involving one or more neurotransmitters encoded by these genes.

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“…Recent evidence that RIIH attenuates genomic reactivity of neurons located in key autonomic metabolic structures in the male but not female rat brain is consistent with a central neural component of this gender-specific response desensitization [7, 8]. We have developed an experimental model for RIIH based upon serial subcutaneous (sc) injection of the therapeutic intermediate-release insulin, neutral protamine Hagedorn (NPH), in order to replicate route of delivery, frequency of administration, and duration of action in the clinical setting.…”

Section: Introductionmentioning

confidence: 82%

“…The present studies utilized a model for recurrent insulin-induced hypoglycemia established and reported by our laboratory, which is characterized by exacerbated hypoglycemia, impaired glucagon and adrenomedullary catecholamine secretion, and attenuated CNS neuronal transcriptional activation in male rats [7]. In contrast, we have reported that female rats exposed to RIIH exhibit estrogen-dependent uniformity of glycemic and Fos protein responses to acute and recurring IIH [8]. For quantitative real-time RT-PCR analyses, animals of both genders were injected sc with the intermediate-release insulin formulation, humulin NPH (12.5 U/kg b.w.…”

Section: Methodsmentioning

confidence: 99%

Sex Differences in Acclimation of Hypothalamic Arcuate Glucokinase Gene and Protein Expression to Repeated Intermediate Insulin Administration

Nedungadi

Genabai²,

Parihar³

et al. 2009

Neuroendocrinology

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Background: Repeated intermediate-acting insulin administration attenuates genomic reactivity of neurons in key autonomic metabolic structures in the male, but not female rat brain – results that support a central neural component of sex-specific response desensitization. The glucokinase (GK) enzyme functions as a glucose sensor in a body-wide system of metabolic monitoring structures, including the brain, and is expressed at high levels in the hypothalamic arcuate nucleus (ARH). Method: Quantitative real-time RT-PCR was used to investigate the hypothesis that habituation of ARH GK gene expression to neutral protamine Hagedorn insulin (NPH) injection differs among sexes. In lieu of evidence for region-based functional heterogeneity in this structure, effects of NPH on in situ GK protein-staining patterns were evaluated at different rostrocaudal levels of the ARH by immunocytochemistry. Results: Basal ARH GK mRNA levels were equivalent in sham-operated (SHAM) and orchidectomized (ORDX) male rats. SHAM males exhibited augmented GK gene profiles in response to acute NPH injection, as well as elevated numbers of GK-immunoreactive (-ir) neurons in the rostral ARH. ORDX abolished this stimulatory transcriptional response, but did not prevent increased GK labeling throughout this structure. Stimulatory effects of precedent insulin administration on baseline GK mRNA were reversed by ORDX. Serial dosing of SHAM males with NPH elicited no change in ARH GK transcription, but decreased GK-ir in the rostral ARH. Acute NPH injection had no impact on GK gene profiles in estradiol benzoate (EB)- or oil-implanted ovariectomized (OVX) female rats, but diminished GK-ir cell counts in the OVX + EB caudal ARH. Precedent NPH treatment did not modify baseline GK mRNA levels in either group of females, but resulted in decreased or elevated GK gene and protein expression during recurring injection in the presence or absence of EB, respectively. Conclusion: These results provide novel evidence for sex-specific patterns of acclimation of GK mRNA and protein expression within the rat ARH to serial NPH injection, and support the need to elucidate the physiological ramifications of these adaptations regarding behavioral and physiological responses to recurring intermediate insulin administration.

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Effects of Estradiol on Glycemic and CNS Neuronal Activational Responses to Recurrent Insulin-Induced Hypoglycemia in the Ovariectomized Female Rat

Cited by 27 publications

References 40 publications

Impact of recurrent hypoglycemic stress on hindbrain A2 nerve cell energy metabolism and catecholamine biosynthesis: modulation by estradiol

Impact of recurrent hypoglycemic stress on hindbrain A2 nerve cell energy metabolism and catecholamine biosynthesis: modulation by estradiol

Effects of Estradiol on Acute and Recurrent Insulin-Induced Hypoglycemia-Associated Patterns of Arcuate Neuropeptide Y, Proopiomelanocortin, and Cocaine- and Amphetamine-Related Transcript Gene Expression in the Ovariectomized Rat

Sex Differences in Acclimation of Hypothalamic Arcuate Glucokinase Gene and Protein Expression to Repeated Intermediate Insulin Administration

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