Marija Lj Medar scite author profile

Marija Lj Medar

5Publications

54Citation Statements Received

156Citation Statements Given

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153

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University of Novi Sad

Publications

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Aging-Related Increase of cGMP Disrupts Mitochondrial Homeostasis in Leydig Cells

Sokanovic

Baburski

Kojić

et al. 2020

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Since mitochondria play an essential role in the testosterone biosynthesis, serve as power centers and are a source of oxidative stress, a possible mitochondrial dysfunction could be connected with decreased activity of Leydig cells and lowered testosterone production during aging. Here we chronologically analyzed age-related alterations of mitochondrial function in Leydig cells correlated by the progressive rise of cGMP signaling and with respect to testosterone synthesis. To target cGMP signaling in Leydig cells, acute or long-term in vivo or ex vivo treatments with sildenafil (phosphodiesterase 5 [PDE5] inhibitor) were performed. Aging-related accumulation of cGMP in the Leydig cells is associated with mitochondrial dysfunction illustrated by reduced ATP and steroid production, lowered O2 consumption, increased mitochondrial abundance and mtDNA copies number, decreased expression of genes that regulate mitochondrial biogenesis (Ppargc1a/PGC1a-Tfam-Nrf1/NRF1), mitophagy (Pink1), fusion (Mfn1, Opa1), and increased Nrf2/NRF2. Acute in vivo PDE5 inhibition overaccumulated cGMP and stimulated testosterone but reduced ATP production in Leydig cells from adult, middle-aged, and old rats. The increased ATP/O ratio observed in cells from old compared to adult rats was diminished after stimulation of cGMP signaling. Opposite, long-term PDE5 inhibition decreased cGMP signaling and improved mitochondrial function/dynamics in Leydig cells from old rats. Mitochondrial abundance in Leydig cells decreased while ATP levels increased. Chronic treatment elevated Tfam, Nrf1, Nrf2, Opa1, Mfn1, Drp1, and normalized Pink1 expression. Altogether, long-term PDE5 inhibition prevented age-related NO and cGMP elevation, improved mitochondrial dynamics/function, and testosterone production. The results pointed on cGMP signaling in Leydig cells as a target for pharmacological manipulation of aging-associated changes in mitochondrial function and testosterone production.

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Dependence of Leydig Cell’s Mitochondrial Physiology on Luteinizing Hormone Signaling

Medar

Marinkovic

Kojić

et al. 2020

Life

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Knowledge about the relationship between steroidogenesis and the regulation of the mitochondrial bioenergetics and dynamics, in steroidogenic cells, is not completely elucidated. Here we employed in vivo and ex vivo experimental models to analyze mitochondrial physiology in Leydig cells depending on the different LH-cAMP environments. Activation of LH-receptor in rat Leydig cells ex and in vivo triggered cAMP, increased oxygen consumption, mitoenergetic and steroidogenic activities. Increased mitoenergetic activity i.e., ATP production is achieved through augmented glycolytic ATP production and a small part of oxidative phosphorylation (OXPHOS). Transcription of major genes responsible for mitochondrial dynamics was upregulated for Ppargc1a (regulator of mitogenesis and function) and downregulated for Drp1 (main fission marker), Prkn, Pink1 and Tfeb (mitophagy markers). Leydig cells from gonadotropin-treated rats show increased mitogenesis confirmed by increased mitochondrial mass, increased mtDNA, more frequent mitochondria observed by a transmission electron microscope and increased expression of subunits of respiratory proteins Cytc/CYTC and COX4. Opposite, Leydig cells from hypogonadotropic-hypogonadal rats characterized by low LH-cAMP, testosterone, and ATP production, reduced markers of mitogenesis and mitofusion (Mfn1/2, Opa1) associated with reduced mtDNA content. Altogether results underline LH-cAMP signaling as an important regulator of mitochondrial physiology arranging mitochondrial dynamics, bioenergetic and steroidogenic function in Leydig cells.

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Long-term inhibition of PDE5 ameliorates aging-induced changes in rat testis

Sokanovic

Čapo

Medar

et al. 2018

Experimental Gerontology

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Stress-induced glucocorticoids alter the Leydig cells' timing and steroidogenesis-related systems

Medar

Andrić

Kostic

2021

Molecular and Cellular Endocrinology

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Stress alters the activity of Leydig cells dependently on the diurnal time

Medar

Andrić

Kostic

2021

Preprint

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The connection between two fundamental processes in cells, the stress response and circadian timekeeping, were analyzed on Leydig cells from stressed rats. Stress increased glucocorticoids and decreased testosterone blood level. Transcriptional analysis revealed different sensitivity to stress events depending on the circadian time: the majority of steroidogenesis-related genes (Lhcgr, Nr3c1, Cyp11a1, Cyp17a1, Hsd3b1/2) were down-regulated by stress in the inactive (light) phase, but in the active (dark) phase of the day, they were unchanged or even up-regulated. Stress potentiates the expression of clock elements Bmal1/BMAL1, Per1/2/PER1, and Rev-erba. Glucocorticoid-treated rats showed a similar response, likewise stress on the negative clock regulators (Rev-erba/b, Cry1/2, Per1/2), suggesting that stress-induced glucocorticoids regulate clock loops but also outside genes through E-/RORE-box. Blockade of intratesticular glucocorticoid receptors prevented stress-induced change in expression negative clock regulators. The results reveal glucocorticoid-mediated communication between the stress- and circadian-system resets the Leydig cell's clock.

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Marija Lj Medar

Aging-Related Increase of cGMP Disrupts Mitochondrial Homeostasis in Leydig Cells

Dependence of Leydig Cell’s Mitochondrial Physiology on Luteinizing Hormone Signaling

Long-term inhibition of PDE5 ameliorates aging-induced changes in rat testis

Stress-induced glucocorticoids alter the Leydig cells' timing and steroidogenesis-related systems

Stress alters the activity of Leydig cells dependently on the diurnal time

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