Estrogen: a master regulator of bioenergetic systems in the brain and body

doi:10.1016/j.yfrne.2013.08.001

Review

. 2014 Jan;35(1):8-30.

doi: 10.1016/j.yfrne.2013.08.001. Epub 2013 Aug 29.

Estrogen: a master regulator of bioenergetic systems in the brain and body

Jamaica R Rettberg¹, Jia Yao², Roberta Diaz Brinton³

Affiliations

¹ Neuroscience Department, University of Southern California, Los Angeles, CA 90033, United States.
² Department of Pharmacology and Pharmaceutical Sciences, School of Pharmacy, University of Southern California, Los Angeles, CA 90033, United States.
³ Neuroscience Department, University of Southern California, Los Angeles, CA 90033, United States; Department of Pharmacology and Pharmaceutical Sciences, School of Pharmacy, University of Southern California, Los Angeles, CA 90033, United States; Department of Neurology, Keck School of Medicine, University of Southern California, Los Angeles, CA 90033, United States. Electronic address: rbrinton@usc.edu.

PMID: 23994581
PMCID: PMC4024050
DOI: 10.1016/j.yfrne.2013.08.001

Review

Estrogen: a master regulator of bioenergetic systems in the brain and body

Jamaica R Rettberg et al. Front Neuroendocrinol. 2014 Jan.

. 2014 Jan;35(1):8-30.

doi: 10.1016/j.yfrne.2013.08.001. Epub 2013 Aug 29.

Authors

Jamaica R Rettberg¹, Jia Yao², Roberta Diaz Brinton³

Affiliations

¹ Neuroscience Department, University of Southern California, Los Angeles, CA 90033, United States.
² Department of Pharmacology and Pharmaceutical Sciences, School of Pharmacy, University of Southern California, Los Angeles, CA 90033, United States.
³ Neuroscience Department, University of Southern California, Los Angeles, CA 90033, United States; Department of Pharmacology and Pharmaceutical Sciences, School of Pharmacy, University of Southern California, Los Angeles, CA 90033, United States; Department of Neurology, Keck School of Medicine, University of Southern California, Los Angeles, CA 90033, United States. Electronic address: rbrinton@usc.edu.

PMID: 23994581
PMCID: PMC4024050
DOI: 10.1016/j.yfrne.2013.08.001

Abstract

Estrogen is a fundamental regulator of the metabolic system of the female brain and body. Within the brain, estrogen regulates glucose transport, aerobic glycolysis, and mitochondrial function to generate ATP. In the body, estrogen protects against adiposity, insulin resistance, and type II diabetes, and regulates energy intake and expenditure. During menopause, decline in circulating estrogen is coincident with decline in brain bioenergetics and shift towards a metabolically compromised phenotype. Compensatory bioenergetic adaptations, or lack thereof, to estrogen loss could determine risk of late-onset Alzheimer's disease. Estrogen coordinates brain and body metabolism, such that peripheral metabolic state can indicate bioenergetic status of the brain. By generating biomarker profiles that encompass peripheral metabolic changes occurring with menopause, individual risk profiles for decreased brain bioenergetics and cognitive decline can be created. Biomarker profiles could identify women at risk while also serving as indicators of efficacy of hormone therapy or other preventative interventions.

Keywords: 17b-estradiol unless otherwise specified; 3xTgAD; AD; Adipokine; Adipose tissue; Aging; Alzheimer’s disease; ArKO; Aβ; BMI; Biomarker; CEE; CMRglu; COX; CSF; DPN; E(1); E(2); E(3); ER; ERE; ERα; ERα knockout; ERβ; Estrogen; FDG; HOMA-IR; HT; IDE; IGF-1; IGF-1R; IR; Insulin; MCI; MMSE; MPA; Menopause; Metabolism; Mitochondria; OVX; OXPHOS; PDH; PET; PPT; ROS; SHBG; T2DM; TCA; Type 2 diabetes; Type II diabetes mellitus; VaD; amyloid beta(1–42), beta-amyloid; aromatase knockout; body-mass index; cerebral metabolic rate of glucose uptake; cerebrospinal fluid; complex IV; conjugated equine estrogen; diarylpropionitrile (an ERβ-selective agonist); estradiol, 17β-estradiol; estriol; estrogen receptor; estrogen receptor alpha, also referred to as ESR1; estrogen receptor beta, also referred to as ESR2; estrogen response element; estrone; fluorodeoxyglucose; homeostatic assessment of insulin resistance; hormone therapy; insulin degrading enzyme; insulin growth factor-1; insulin growth factor-1 receptor; insulin receptor; mER; medroxyprogesterone acetate; membrane associated estrogen receptor; mild cognitive impairment; mini-mental state exam; mitochondrial DNA; mtDNA; ovariectomized, ovariectomy; oxidative phosphorylation; positron emission tomography; propylpyrazoletriol (an ERα-selective agonist); pyruvate dehydrogenase; rCBF; reactive oxygen species; regional cerebral blood flow; sex hormone-binding globulin; tricarboxylic citric acid; triple-transgenic mouse model of Alzheimer’s disease; vascular dementia; α-ketoglutarate dehydrogenase; αERKO; αKGDH.

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Figures

**Figure 1. Estrogen regulation of intracellular brain metabolism pathways**
Estrogen-induced signaling pathways in hippocampal and cortical neurons converge upon the mitochondria to enhance glucose uptake and metabolism, aerobic glycolysis, tricarboxylic acid cycle (TCA)-coupled oxidative phosphorylation and ATP generation. In parallel, E₂ increases antioxidant defense and antiapoptotic mechanisms. Estrogen receptors at the membrane, in mitochondria and within the nucleus are well positioned to regulate coordinated mitochondrial and nuclear gene expression required for optimal bioenergetics.

**Figure 2. Estrogen regulation of bioenergetic system**
Estrogen regulates many of the key enzymes involved in mitochondrial bioenergetics, including glucose transporters, hexokinase (HK), pyruvate dehydrogenase (PDH), aconitase (Aco2), alpha ketoglutarate dehydrogenase (aKGDH), succinate dehydrogenase (SDH), and Complexes I, III, and IV of the electron transport chain.

**Figure 3. Estrogen regulation of whole-body metabolism**
Estrogen receptors are expressed throughout peripheral systems involved in metabolism. Estrogen affects adipose tissue distribution and risk of obesity, insulin resistance and risk of diabetes, and concentration of the adipokines leptin, ghrelin, and adiponectin. Loss of estrogen at menopause leads to significant changes in many of these systems, which can be stabilized with the use of hormone therapy. Adverse metabolic profiles, e.g. type 2 diabetes and metabolic syndrome, can increase risk of developing Alzheimer’s disease.

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References

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1. Ahima R. Connecting obesity, aging and diabetes. Nature medicine. 2009;15:996–997. - PubMed
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1. Akin F, Bastemir M, Alkis E. Effect of insulin sensitivity on SHBG levels in premenopausal versus postmenopausal obese women. Advances in therapy. 2007;24:1210–1220. - PubMed
1. Akin F, Bastemir M, Alkis E, Kaptanoglu B. SHBG levels correlate with insulin resistance in postmenopausal women. European journal of internal medicine. 2009;20:162–167. - PubMed

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[1] Acharya NK, Levin EC, Clifford PM, Han M, Tourtellotte R, Chamberlain D, Pollaro M, Coretti NJ, Kosciuk MC, Nagele EP, et al. Diabetes and Hypercholesterolemia Increase Blood-Brain Barrier Permeability and Brain Amyloid Deposition: Beneficial Effects of the LpPLA2 Inhibitor Darapladib. J Alzheimers Dis. 2013 - PubMed

[2] Acharya NK, Levin EC, Clifford PM, Han M, Tourtellotte R, Chamberlain D, Pollaro M, Coretti NJ, Kosciuk MC, Nagele EP, et al. Diabetes and Hypercholesterolemia Increase Blood-Brain Barrier Permeability and Brain Amyloid Deposition: Beneficial Effects of the LpPLA2 Inhibitor Darapladib. J Alzheimers Dis. 2013 - PubMed

[3] Ahima R. Connecting obesity, aging and diabetes. Nature medicine. 2009;15:996–997. - PubMed

[4] Ahima R. Connecting obesity, aging and diabetes. Nature medicine. 2009;15:996–997. - PubMed

[5] Ahtiainen M, Alen M, Pollanen E, Pulkkinen S, Ronkainen PH, Kujala UM, Kaprio J, Sipila S, Kovanen V. Hormone therapy is associated with better body composition and adipokine/glucose profiles: a study with monozygotic co-twin control design. Menopause. 2012;19:1329–1335. - PubMed

[6] Ahtiainen M, Alen M, Pollanen E, Pulkkinen S, Ronkainen PH, Kujala UM, Kaprio J, Sipila S, Kovanen V. Hormone therapy is associated with better body composition and adipokine/glucose profiles: a study with monozygotic co-twin control design. Menopause. 2012;19:1329–1335. - PubMed

[7] Akin F, Bastemir M, Alkis E. Effect of insulin sensitivity on SHBG levels in premenopausal versus postmenopausal obese women. Advances in therapy. 2007;24:1210–1220. - PubMed

[8] Akin F, Bastemir M, Alkis E. Effect of insulin sensitivity on SHBG levels in premenopausal versus postmenopausal obese women. Advances in therapy. 2007;24:1210–1220. - PubMed

[9] Akin F, Bastemir M, Alkis E, Kaptanoglu B. SHBG levels correlate with insulin resistance in postmenopausal women. European journal of internal medicine. 2009;20:162–167. - PubMed

[10] Akin F, Bastemir M, Alkis E, Kaptanoglu B. SHBG levels correlate with insulin resistance in postmenopausal women. European journal of internal medicine. 2009;20:162–167. - PubMed

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Estrogen: a master regulator of bioenergetic systems in the brain and body

Affiliations

Estrogen: a master regulator of bioenergetic systems in the brain and body

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