Ultra-High-Performance Liquid Chromatography-Electrospray Ionization-Mass Spectrometry for High-Neuroanatomical Resolution Quantification of Brain Estradiol Concentrations.

Ventromedial hypothalamic nucleus (VMN) control of glucostasis is estradiol (E-2)-dependent. E-2 regulation of VMN reactivity to hypoglycemia may involve changes in signal volume due to altered aromatase expression. Here, high-resolution micropunch dissection tools for isolation of segmental VMN tissue were used with Design of Experiments-refined uHPLC-electrospray ionization-mass spectrometry (LC-ESI-MS) methodology to investigate the premise that effects of acute and/or recurring hypoglycemia on VMN E-2 content are sex-dimorphic. Relationships among multiple independent mass spectrometric operational variables were assessed by Central Composite Design (CCD) to amplify E-2 chromatogram area. Combinations of spectrometric temperature and gas pressure variable combinations were screened by Akaike Information Criterion correction modeling. A Fibonacci Sequence design using CCD minimum and maximal variable limits produced a small-run model that replicated maximal response from CCD. E-2 chromatographic response was further enhanced by optimization of solid phase extraction and instrument source and collision-induced dissociation voltages. In male rats, acute and chronic hypoglycemia respectively elevated or diminished E-2 concentrations relative to baseline in both rostral and caudal VMN. However, females exhibited regional variability in tissue E-2 profiles during acute (increased, rostral VMN; no change, caudal VMN) and recurring (no change, rostral VMN; increased, caudal VMN) hypoglycemia. Outcomes demonstrate requisite LC-ESI-MS sensitivity for E-2 quantification in small-volume brain tissue samples acquired with high-neuroanatomical specificity. Current methodology will facilitate efforts to investigate physiological consequences of VMN rostro-caudal segment-specific acclimation of E-2 profiles to recurring hypoglycemia, including effects on gluco-regulatory function, in each sex.