Abigail Giles scite author profile

Absorbance spectroscopy of intrinsic cardiac chromophores provides nondestructive assessment of cytosolic oxygenation and mitochondria redox state. Isolated perfused heart spectroscopy is usually conducted by collecting reflected light from the heart surface, which represents a combination of surface scattering events and light that traversed portions of the myocardium. Reflectance spectroscopy with complex surface scattering effects in the beating heart leads to difficulty in quantitating chromophore absorbance. In this study, surface scattering was minimized and transmural path length optimized by placing a light source within the left ventricular chamber while monitoring transmurally transmitted light at the epicardial surface. The custom-designed intrachamber light catheter was a flexible coaxial cable (2.42-Fr) terminated with an encapsulated side-firing LED of 1.8 × 0.8 mm, altogether similar in size to a Millar pressure catheter. The LED catheter had minimal impact on aortic flow and heart rate in Langendorff perfusion and did not impact stability of the left ventricule of the working heart. Changes in transmural absorbance spectra were deconvoluted using a library of chromophore reference spectra to quantify the relative contribution of specific chromophores to the changes in measured absorbance. This broad-band spectral deconvolution approach eliminated errors that may result from simple dual-wavelength absorbance intensity. The myoglobin oxygenation level was only 82.2 ± 3.0%, whereas cytochrome and cytochrome + were 13.3 ± 1.4% and 12.6 ± 2.2% reduced, respectively, in the Langendorff-perfused heart. The intracardiac illumination strategy permits transmural optical absorbance spectroscopy in perfused hearts, which provides a noninvasive real-time monitor of cytosolic oxygenation and mitochondria redox state. Here, a novel nondestructive real-time approach for monitoring intrinsic indicators of cardiac metabolism and oxygenation is described using a catheter-based transillumination of the left ventricular free wall together with complete spectral analysis of transmitted light. This approach is a significant improvement in the quality of cardiac optical absorbance spectroscopic metabolic analyses.

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Metabolic compensation activates pro-survival mTORC1 signaling upon 3-phosphoglycerate dehydrogenase inhibition in osteosarcoma

Rathore

Caldwell

Schutt

et al. 2021

Cell Reports

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Ischemia-Selective Cardioprotection by Malonate for Ischemia/Reperfusion Injury

Prag

Aksentijević

Dannhorn

et al. 2022

Circulation Research

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Background: Inhibiting SDH (succinate dehydrogenase), with the competitive inhibitor malonate, has shown promise in ameliorating ischemia/reperfusion injury. However, key for translation to the clinic is understanding the mechanism of malonate entry into cells to enable inhibition of SDH, its mitochondrial target, as malonate itself poorly permeates cellular membranes. The possibility of malonate selectively entering the at-risk heart tissue on reperfusion, however, remains unexplored. Methods: C57BL/6J mice, C2C12 and H9c2 myoblasts, and HeLa cells were used to elucidate the mechanism of selective malonate uptake into the ischemic heart upon reperfusion. Cells were treated with malonate while varying pH or together with transport inhibitors. Mouse hearts were either perfused ex vivo (Langendorff) or subjected to in vivo left anterior descending coronary artery ligation as models of ischemia/reperfusion injury. Succinate and malonate levels were assessed by LC-MS/MS, in vivo by mass spectrometry imaging, and infarct size by TTC staining. Results: Malonate was robustly protective against cardiac ischemia/reperfusion injury, but only if administered at reperfusion and not when infused before ischemia. The extent of malonate uptake into the heart was proportional to the duration of ischemia. Malonate entry into cardiomyocytes in vivo and in vitro was dramatically increased at the low pH (≈6.5) associated with ischemia. This increased uptake of malonate was blocked by selective inhibition of MCT1 (monocarboxylate transporter 1). Reperfusion of the ischemic heart region with malonate led to selective SDH inhibition in the at-risk region. Acid-formulation greatly enhances the cardioprotective potency of malonate. Conclusions: Cardioprotection by malonate is dependent on its entry into cardiomyocytes. This is facilitated by the local decrease in pH that occurs during ischemia, leading to its selective uptake upon reperfusion into the at-risk tissue, via MCT1. Thus, malonate’s preferential uptake in reperfused tissue means it is an at-risk tissue-selective drug that protects against cardiac ischemia/reperfusion injury.

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Paradoxical arteriole constriction compromises cytosolic and mitochondrial oxygen delivery in the isolated saline-perfused heart

Giles

Sun

Femnou

et al. 2018

American Journal of Physiology-Heart and Circulatory Physiology

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The isolated saline-perfused heart is used extensively to study cardiac physiology. Previous isolated heart studies have demonstrated lower tissue oxygenation compared with in vivo hearts based on myoglobin oxygenation and the mitochondrial redox state. These data, consistent with small anoxic regions, suggest that the homeostatic balance between work and oxygen delivery is impaired. We hypothesized that these anoxic regions are caused by inadequate local perfusion due to a paradoxical arteriole constriction generated by a disrupted vasoregulatory network. We tested this hypothesis by applying two exogenous vasodilatory agents, adenosine and cromakalim, to relax vascular tone in an isolated, saline-perfused, working rabbit heart. Oxygenation was monitored using differential optical transmission spectroscopy and full spectral fitting. Increases in coronary flow over control with adenosine (27 ± 4 ml/min) or cromakalim (44 ± 4 ml/min) were associated with proportional spectral changes indicative of myoglobin oxygenation and cytochrome oxidase (COX) oxidation, consistent with a decrease in tissue anoxia. Quantitatively, adenosine decreased deoxymyoglobin optical density (OD) across the wall by 0.053 ± 0.008 OD, whereas the reduced form of COX was decreased by 0.039 ± 0.005 OD. Cromakalim was more potent, decreasing deoxymyoglobin and reducing the level of COX by 0.070 ± 0.019 OD and 0.062 ± 0.019 OD, respectively. These effects were not species specific, as Langendorff-perfused mouse hearts treated with adenosine demonstrated similar changes. These data are consistent with paradoxical arteriole constriction as a major source of regional anoxia during saline heart perfusion. We suggest that the vasoregulatory network is disrupted by the washout of interstitial vasoactive metabolites in vitro. NEW & NOTEWORTHY Regional tissue anoxia is a common finding in the ubiquitous saline-perfused heart but is not found in vivo. Noninvasive optical techniques confirmed the presence of regional anoxia under control conditions and demonstrated that anoxia is diminished using exogenous vasodilators. These data are consistent with active arteriole constriction, occurring despite regional anoxia, generated by a disrupted vasoregulatory network. Washout of interstitial vasoactive metabolites may contribute to the disruption of normal vasoregulatory processes in vitro.

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Perfused murine heart optical transmission spectroscopy using optical catheter and integrating sphere: Effects of ischemia/reperfusion

Bauer

Giles

Sun

et al. 2019

Analytical Biochemistry

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Introduction of the Sirepo-Bluesky interface and its application to the optimization problems

Rakitin

Giles

Swartz

et al. 2020

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Ischemia-selective protection against cardiac ischemia/reperfusion injury by malonate

Prag¹,

Aksentijević²,

Dannhorn³

et al. 2022

Journal of Molecular and Cellular Cardiology

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NCOG-76. BASELINE COGNITIVE ASSESSMENT IN GLIOMA PATIENTS WITH MGMT PROMOTOR METHYLATION AND/OR 1p19q CODELETION

Park

Giles

Liberatore

et al. 2020

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INTRODUCTION Methylguanine methyltransferase (MGMT) methylation status is associated with better overall survival while 1p19q co-deletion is associated with long-term survival. Cognitive dysfunction is a common complication of brain tumors and treatment; however, information regarding the relationship between MGMT status, 1p19q codeletion, and cognition is limited. METHOD Baseline neuropsychological testing was performed in patients with malignant glioma prior to radiation and/or chemotherapy administration. A retrospective data analysis was conducted. We calculated composite and subdomain scores for attention/executive functioning, memory, and language in patients with or without MGMT promotor methylation and/or 1p19q codeletion. RESULTS Thirty-eight patients (Age M = 48.73 ± 14.98; 50% female) diagnosed with glioma (29% grade II, 16% grade III, 21% grade IV; Karnofsky Performance Status score (KPS) M = 88.75 ± 14.24) were selected from a retrospective. Memory was marginally significant, such that methylated participants performed better on memory tasks than the unmethylated group (p = .053). Independent samples t-test revealed no significant differences between either marker across the overall cognitive composite (methylated M = 41.35; unmethylated: M = 39.91; p = .955; 1p19q co-deleted: M = 50.94; 1p19q intact: M = 43.66; p = .158) and subdomains attention/executive functioning (p = .585; p = .157) and language (p = .581; p = .765). Logistic regression showed MGMT does not predict cognitive status (p =.052) and there were not enough cases to complete the model with 1p19q. CONCLUSION MGMT status may be correlated with baseline cognitive status as MGMT methylated patients had better memory scores than their unmethylated counterparts. We did not find any significant association between the remaining cognitive domains and MGMT or 1p19q although sample size is a significant limitation. These results suggest further assessment of changes in cognition during treatment through serial neuropsychological testing of glioma populations with defined marker status is warranted.

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Abigail Giles

Intracardiac light catheter for rapid scanning transmural absorbance spectroscopy of perfused myocardium: measurement of myoglobin oxygenation and mitochondria redox state

Metabolic compensation activates pro-survival mTORC1 signaling upon 3-phosphoglycerate dehydrogenase inhibition in osteosarcoma

Ischemia-Selective Cardioprotection by Malonate for Ischemia/Reperfusion Injury

Paradoxical arteriole constriction compromises cytosolic and mitochondrial oxygen delivery in the isolated saline-perfused heart

Perfused murine heart optical transmission spectroscopy using optical catheter and integrating sphere: Effects of ischemia/reperfusion

Introduction of the Sirepo-Bluesky interface and its application to the optimization problems

Ischemia-selective protection against cardiac ischemia/reperfusion injury by malonate

NCOG-76. BASELINE COGNITIVE ASSESSMENT IN GLIOMA PATIENTS WITH MGMT PROMOTOR METHYLATION AND/OR 1p19q CODELETION

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