Sina Sadeghi scite author profile

Thiazolidinediones alter cell energy metabolism. They are used to treat or are being considered for the treatment of disorders that feature mitochondrial impairment. Their mitochondrial effects, however, have not been comprehensively studied under long-term exposure conditions. We used the human neuronlike NT2 cell line to directly assess the long-term effects of a thiazolidinedione drug, pioglitazone, on mitochondria. At micromolar concentrations, pioglitazone increased mitochondrial DNA (mtDNA) content, levels of mtDNA and nuclear-encoded electron transport chain subunit proteins, increased oxygen consumption, and elevated complex I and complex IV V max activities. Pioglitazone treatment was also associated with increased cytoplasmic but reduced mitochondrial peroxide levels. Our data suggest that pioglitazone induces mitochondrial biogenesis and show that pioglitazone reduces mitochondrial oxidative stress in a neuron-like cell line. For these reasons pioglitazone may prove useful in the treatment of mitochondriopathies.

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Effects of memantine on mitochondrial function

McAllister

Ghosh

Berry

et al. 2008

Biochemical Pharmacology

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Because NMDA complex and mitochondrial function are related, we hypothesized memantine would influence mitochondrial function. We addressed this in vitro by studying the effects of chronic and acute memantine exposures on mitochondrial function. For acute exposure experiments, mitochondria were isolated from NT2 cells and assayed for electron transport chain (ETC) enzyme function and peroxide production in buffers containing up to 60 uM memantine. For chronic exposure experiments, NT2 cells were maintained for at least two weeks in medium containing up to 60 uM memantine, following which we assayed cells or their mitochondria for ETC enzyme activities, cytochrome oxidase protein levels, oxidative stress, calcium levels, and mitochondrial DNA levels. The ability of the NMDA receptor antagonist aminophosphonovaleric acid (APV) to modify memantine's mitochondrial effects was evaluated. Acute and chronic memantine similarly affected complex I (increased at high concentrations) and IV (decreased at high concentrations) Vmax activities. APV did not alter the effects of chronic memantine exposure on citrate synthase and complex IV. We detected a lower mitochondrial peroxide production rate with acute exposure, and an increased mitochondrial peroxide production rate with chronic exposure. Micromolar memantine concentrations affect mitochondria, some of these effects are directly mediated, and acute and chronic effects may differ.

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Maternal-pup interaction disturbances induce long-lasting changes in the newborn rat pulmonary vasculature

Shifrin

Sadeghi

Pan

et al. 2015

American Journal of Physiology-Lung Cellular and Molecular Phys

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The factors accounting for the pathological maintenance of a high pulmonary vascular (PV) resistance postnatally remain elusive, but neonatal stressors may play a role in this process. Cross-fostering in the immediate neonatal period is associated with adult-onset vascular and behavioral changes, likely triggered by early-in-life stressors. In hypothesizing that fostering newborn rats induces long-lasting PV changes, we evaluated them at 14 days of age during adulthood and compared the findings with animals raised by their biological mothers. Fostering resulted in reduced maternal-pup contact time when compared with control newborns. At 2 wk of age, fostered rats exhibited reduced pulmonary arterial endothelium-dependent relaxation secondary to downregulation of tissue endothelial nitric oxide synthase expression and tetrahydrobiopterin deficiency-induced uncoupling. These changes were associated with neonatal onset-increased ANG II receptor type 1 expression, PV remodeling, and right ventricular hypertrophy that persisted into adulthood. The pulmonary arteries of adult-fostered rats exhibited a higher contraction dose response to ANG II and thromboxane A2, the latter of which was abrogated by the oxidant scavenger Tempol. In conclusion, fostering-induced neonatal stress induces long-standing PV changes modulated via the renin-angiotensin system.

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Sina Sadeghi

The Thiazolidinedione Pioglitazone Alters Mitochondrial Function in Human Neuron-Like Cells

Effects of memantine on mitochondrial function

Maternal-pup interaction disturbances induce long-lasting changes in the newborn rat pulmonary vasculature

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