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2. Sex differences in specialized pro-resolving lipid mediators and their receptors in abdominal aortic aneurysms

Author

Amanda C. Filiberto, MD, Victoria Leroy, BS, Zachary Ladd, BS, Gang Su, MD, Craig T. Elder, MD, Eric Y. Pruitt, MD, Guanyi Lu, MD, Joseph Hartman, BS, Ali Zarrinpar, MD, PhD, Timothy J. Garrett, PhD, Ashish K. Sharma, MBBS, PhD, and Gilbert R. Upchurch, Jr., MD

Subjects
Abdominal aortic aneurysm, Aortic aneurysms, Lipid mediators, Resolution of inflammation, Resolvins, Sex differences, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Objective: In this study, we tested the hypothesis that endogenous expression of specialized pro-resolving lipid mediators (SPMs) that facilitate the resolution of inflammation, specifically Resolvin D1and -D2, as well as Maresin1 (MaR1), can impact abdominal aortic aneurysm (AAA) formation and progression in a sex-specific manner. Methods: SPM expression was quantified in aortic tissue from human AAA samples and from a murine in vivo AAA model via liquid chromatography-tandem mass spectrometry. mRNA expression for SPM receptors FPR2, LGR6, and GPR18 were quantified by real-time polymerase chain reaction. A Student t test with nonparametric Mann-Whitney or Wilcoxon test was used for pair-wise comparisons of groups. One-way analysis of variance after post hoc Tukey test was used to determine the differences among multiple comparative groups. Results: Human aortic tissue analysis revealed a significant decrease in RvD1 levels in male AAAs compared with controls, whereas FPR2 and LGR6 receptor expressions were downregulated in male AAAs compared with male controls. In vivo studies of elastase-treated mice showed higher levels of RvD2 and MaR1 as well as the SPM precursors, omega-3 fatty acids DHA and EPA, in aortic tissue from males compared with females. FPR2 expression was increased in elastase-treated females compared with males. Conclusions: Our findings demonstrate that specific differences in SPMs and their associated G-protein coupled receptors exist between sexes. These results indicate the relevance of SPM-mediated signaling pathways in sex differences impacting the pathogenesis of AAAs. : Clinical Relevance: AAAs are a substantial clinical problem and can lead to sudden aortic rupture and death. Recent studies have shown a critical role for sex disparity during AAA formation, as female sex has a lower incidence of aortic aneurysm disease, but their outcomes following intervention appear to be worse. Few studies have examined the potential causes that underlie these differences. In this study, we tested the hypothesis that sex differences in endogenous SPM expression and their receptors exist between males and females and that this difference could be associated with AAA formation.

Published
2023
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4. Development of a murine iliac arteriovenous fistula model for examination of hemodialysis access-related limb pathophysiology

Author

Kyoungrae Kim, PhD, Erik M. Anderson, MD, Andrew J. Martin, MD, Qiongyao Hu, BS, Tomas A. Cort, BS, Kenneth C. Harland, BS, Kerri A. O'Malley, PhD, Guanyi Lu, MD, PhD, Scott A. Berceli, MD, PhD, Terence E. Ryan, PhD, and Salvatore T. Scali, MD

Subjects
Arteriovenous fistula, Hand dysfunction, Hemodialysis, Mitochondria, Venous hypertension, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Objective: Hemodialysis access-related hand dysfunction is a common clinical feature of patients with chronic kidney disease (CKD) after arteriovenous fistula (AVF) placement. The heterogeneity in symptoms and the lack of a predictive association with changes in hemodynamic alterations precipitated by the AVF suggest that other factors are involved in the mechanisms responsible for causing hand and limb dysfunction postoperatively. To the best of our knowledge, no suitable animal models have provided a platform for performing preclinical experiments designed to elucidate the biologic drivers of access-related hand dysfunction. Therefore, our objective was to develop a novel murine AVF model that could be used to study dialysis access-related limb dysfunction. Methods: Male 8-week-old C57BL/6J mice (n = 15/group) were exposed to either an adenine-supplemented diet to induce CKD or casein-based chow (control). Four weeks after the diet intervention, the mice were randomly assigned to receive an iliac AVF (n = 10/group) or sham surgery (n = 5/group) on the left hindlimb. The mice were sacrificed 2 weeks after surgery, and AVF specimens and hindlimb skeletal muscles were collected for further analysis. Results: Before AVF or sham surgery, the glomerular filtration rates were significantly reduced and the blood urea nitrogen levels were significantly elevated in the CKD groups compared with the controls (P < .05). AVF surgery was associated with an ∼80% patency rate among the survivors (four control and three CKD mice died postoperatively). Patency was verified by changes in hemodynamics using Doppler ultrasound imaging and altered histologic morphology. Compared with sham surgery, AVF surgery reduced ipsilateral hindlimb perfusion to the tibialis anterior muscle (20%-40%) and paw (40%-50%), which remained stable until euthanasia. Analysis of gastrocnemius muscle mitochondrial respiratory function uncovered a significant decrease (40%-50%) in mitochondrial function in the AVF mice. No changes were found in the muscle mass, myofiber cross-sectional area, or centrally nucleated fiber proportion in the extensor digitorum longus and soleus muscles between the sham and AVF mice. Conclusions: The results from the present study have demonstrated that iliac AVF formation is a practical animal model that facilitates examination of hemodialysis access-related limb dysfunction. AVF surgery produced the expected hemodynamic changes, and evaluation of the limb muscle revealed a substantial mitochondrial impairment that was present without changes in muscle size. : Clinical Relevance: Autogenous arteriovenous fistula creation remains the preferred vascular access option for patients requiring chronic hemodialysis therapy. However, access-related hand dysfunction (ARHD) remains highly prevalent in this population. Clinical management of the disability is difficult because of symptom heterogeneity and limited treatment options. Additionally, the current preclinical models do not adequately replicate the pathologic condition to allow for investigation of underlying mechanisms and to test new therapies. Therefore, medical progress has been marginal. In the present study, we have outlined a novel murine model to study ARHD and described the associated mitochondrial impairments, providing a unique tool for preclinical therapeutic development.

Published
2021
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6. Development of a murine iliac arteriovenous fistula model for examination of hemodialysis access-related limb pathophysiology

Author

Tomas A. Cort, Guanyi Lu, Qiongyao Hu, Kyoungrae Kim, Kerri A. O’Malley, Scott A. Berceli, Terence E. Ryan, Kenneth C. Harland, Erik M. Anderson, Andrew J. Martin, and Salvatore T. Scali

Subjects
medicine.medical_specialty, Venous hypertension, business.industry, medicine.medical_treatment, Sham surgery, Hand dysfunction, Hemodynamics, Arteriovenous fistula, Hindlimb, medicine.disease, Article, Mitochondria, Gastrocnemius muscle, Internal medicine, Hemodialysis, RC666-701, medicine, Cardiology, Diseases of the circulatory (Cardiovascular) system, Respiratory function, cardiovascular diseases, business, Kidney disease
Abstract

Objective Hemodialysis access-related hand dysfunction is a common clinical feature of patients with chronic kidney disease (CKD) after arteriovenous fistula (AVF) placement. The heterogeneity in symptoms and the lack of a predictive association with changes in hemodynamic alterations precipitated by the AVF suggest that other factors are involved in the mechanisms responsible for causing hand and limb dysfunction postoperatively. To the best of our knowledge, no suitable animal models have provided a platform for performing preclinical experiments designed to elucidate the biologic drivers of access-related hand dysfunction. Therefore, our objective was to develop a novel murine AVF model that could be used to study dialysis access-related limb dysfunction. Methods Male 8-week-old C57BL/6J mice (n = 15/group) were exposed to either an adenine-supplemented diet to induce CKD or casein-based chow (control). Four weeks after the diet intervention, the mice were randomly assigned to receive an iliac AVF (n = 10/group) or sham surgery (n = 5/group) on the left hindlimb. The mice were sacrificed 2 weeks after surgery, and AVF specimens and hindlimb skeletal muscles were collected for further analysis. Results Before AVF or sham surgery, the glomerular filtration rates were significantly reduced and the blood urea nitrogen levels were significantly elevated in the CKD groups compared with the controls (P < .05). AVF surgery was associated with an ∼80% patency rate among the survivors (four control and three CKD mice died postoperatively). Patency was verified by changes in hemodynamics using Doppler ultrasound imaging and altered histologic morphology. Compared with sham surgery, AVF surgery reduced ipsilateral hindlimb perfusion to the tibialis anterior muscle (20%-40%) and paw (40%-50%), which remained stable until euthanasia. Analysis of gastrocnemius muscle mitochondrial respiratory function uncovered a significant decrease (40%-50%) in mitochondrial function in the AVF mice. No changes were found in the muscle mass, myofiber cross-sectional area, or centrally nucleated fiber proportion in the extensor digitorum longus and soleus muscles between the sham and AVF mice. Conclusions The results from the present study have demonstrated that iliac AVF formation is a practical animal model that facilitates examination of hemodialysis access-related limb dysfunction. AVF surgery produced the expected hemodynamic changes, and evaluation of the limb muscle revealed a substantial mitochondrial impairment that was present without changes in muscle size., Clinical Relevance Autogenous arteriovenous fistula creation remains the preferred vascular access option for patients requiring chronic hemodialysis therapy. However, access-related hand dysfunction (ARHD) remains highly prevalent in this population. Clinical management of the disability is difficult because of symptom heterogeneity and limited treatment options. Additionally, the current preclinical models do not adequately replicate the pathologic condition to allow for investigation of underlying mechanisms and to test new therapies. Therefore, medical progress has been marginal. In the present study, we have outlined a novel murine model to study ARHD and described the associated mitochondrial impairments, providing a unique tool for preclinical therapeutic development., Visual abstract

Published
2021

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