Publications by authors named "Gholamreza Fazeli"

Selenocysteine (Sec) metabolism is crucial for cellular function and ferroptosis prevention and begins with the uptake of the Sec carrier, selenoprotein P (SELENOP). Following uptake, Sec released from SELENOP is metabolized via selenocysteine lyase (SCLY), producing selenide, a substrate for selenophosphate synthetase 2 (SEPHS2), which provides the essential selenium donor, selenophosphate (HSePO), for the biosynthesis of the Sec-tRNA. Here, we discovered an alternative pathway in Sec metabolism mediated by peroxiredoxin 6 (PRDX6), independent of SCLY.

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Efficient degradation of phagocytic cargo in lysosomes is crucial to maintain cellular homeostasis and defending cells against pathogens. However, the mechanisms underlying the degradation and recycling of macromolecular cargo within the phagolysosome remain incompletely understood. We previously reported that the phagolysosome containing the corpse of the polar body in C.

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The nematode Caenorhabditis elegans offers many experimental advantages to study conserved mechanisms of phagocytosis and phagocytic clearance. These include the stereotyped timing of phagocytic events in vivo for time-lapse imaging, the availability of transgenic reporters labeling molecules involved in different steps of phagocytosis, and the transparency of the animal for fluorescence imaging. Further, the ease of forward and reverse genetics in C.

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As cancer cells develop resistance to apoptosis, non-apoptotic cell death modalities, such as ferroptosis, have emerged as promising strategies to combat therapy-resistant cancers. Cells that develop resistance to conventional therapies or metastatic cancer cells have been shown to have increased sensitivity to ferroptosis. Therefore, targeting the regulatory elements of ferroptosis in cancer could offer novel therapeutic opportunities.

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Phagocytic clearance is important to provide cells with metabolites and regulate immune responses, but little is known about how phagolysosomes finally resolve their phagocytic cargo of cell corpses, cell debris, and pathogens. While studying the phagocytic clearance of non-apoptotic polar bodies in C. elegans, we previously discovered that phagolysosomes tubulate into small vesicles to facilitate corpse clearance within 1.

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The cuticle of is impermeable to chemicals, toxins, and pathogens. However, increased permeability is a desirable phenotype because it facilitates chemical uptake. Surface lipids contribute to the permeability barrier.

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Article Synopsis
  • In 2008, guidelines were established for researching autophagy, which has since gained significant interest and new technologies, necessitating regular updates to monitoring methods across various organisms.
  • The new guidelines emphasize selecting appropriate techniques to evaluate autophagy while noting that no single method suits all situations; thus, a combination of methods is encouraged.
  • The document highlights that key proteins involved in autophagy also impact other cellular processes, suggesting genetic studies should focus on multiple autophagy-related genes to fully understand these pathways.
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The lipids phosphatidylserine (PtdSer) and phosphatidylethanolamine (PtdEth) are normally asymmetrically localized to the cytosolic face of membrane bilayers, but can both be externalized during diverse biological processes, including cell division, cell fusion, and cell death. Externalized lipids in the plasma membrane are recognized by lipid-binding proteins to regulate the clearance of cell corpses and other cell debris. However, it is unclear whether PtdSer and PtdEth contribute in similar or distinct ways to these processes.

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Visualization of specific organelles in tissues over background fluorescence can be challenging, especially when reporters localize to multiple structures. Instead of trying to identify proteins enriched in specific membrane-wrapped structures, we use a selective degradation approach to remove reporters from the cytoplasm or nucleus of C. elegans embryos and mammalian cells.

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Background: In end-stage renal disease (ESRD), gut-derived uremic toxins play a crucial role in the systemic inflammation and oxidative stress promoting the excess morbidity and mortality. The biochemical derangement is in part a consequence of an insufficient generation of short-chain fatty acids (SCFA) due to the dysbiosis of the gut and an insufficient consumption of the fermentable complex carbohydrates.

Aim Of The Study: The primary end-point was to evaluate the potential efficacy of SCFA (specifically, sodium propionate (SP)) for patients on maintenance hemodialysis (MHD) on systemic inflammation.

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To understand how undifferentiated pluripotent cells cope with cell corpses, we examined the clearance of polar bodies born during female meiosis. We found that polar bodies lose membrane integrity and expose phosphatidylserine in Caenorhabditis elegans. Polar body signaling recruits engulfment receptors to the plasma membrane of embryonic blastomeres using the PI3K VPS-34, RAB-5 GTPase and the sorting nexin SNX-6.

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Cells release extracellular vesicles (EVs) that mediate intercellular communication and repair damaged membranes. Despite the pleiotropic functions of EVs in vitro, their in vivo function is debated, largely because it is unclear how to induce or inhibit their formation. In particular, the mechanisms of EV release by plasma membrane budding or ectocytosis are poorly understood.

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Phagocytosis and autophagy are two distinct pathways that degrade external and internal unwanted particles. Both pathways lead to lysosomal degradation inside the cell, and over the last decade, the line between them has blurred; autophagy proteins were discovered on phagosomes engulfing foreign bacteria, leading to the proposal of LC3-associated phagocytosis (LAP). Many proteins involved in macroautophagy are used for phagosome degradation, although Atg8/LC3 family proteins only decorate the outer membrane of LC3-associated phagosomes, in contrast to both autophagosome membranes.

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In animals, the midbody coordinates the end of cytokinesis when daughter cells separate through abscission. The midbody was thought to be sequestered by macroautophagy, but recent evidence suggests that midbodies are primarily released and phagocytosed. It was unknown, however, whether autophagy proteins play a role in midbody phagosome degradation.

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Advanced glycation endproducts (AGEs) accumulate during aging. Skin is the single organ of vitamin D synthesis, induced by ultraviolet B light. Accumulation of AGEs in the skin could interfere with synthesis of the vitamin, whereas the microinflammation and oxidative stress (associated with hypovitaminosis D) could amplify both the toxic effects of AGEs and their production.

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Objectives: The aim of this study was to assess potential effects of high-tone external muscle stimulation (HTEMS) on parameters of endothelial dysfunction (ED) in patients with acute kidney injury (AKI).

Background: The bad outcome of AKI patients is markedly influenced by ED, microinflammation, oxidative stress and protein hypercatabolism. Recently, we have shown that intradialytic application of HTMS was associated with a faster resolution of AKI.

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The effect of mild chronic renal failure (CRF) induced by 4/6-nephrectomy (4/6NX) on central neuronal activations was investigated by c-Fos immunohistochemistry staining and compared to sham-operated rats. In the 4/6 NX rats also the effect of the angiotensin receptor blocker, losartan, and the central sympatholyticum moxonidine was studied for two months. In serial brain sections Fos-immunoreactive neurons were localized and classified semiquantitatively.

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Background: The prognosis of acute kidney injury (AKI) is markedly influenced by the degree of muscle protein catabolism. Since the current therapeutic strategies are rather limited, for the first time, we attempted to attenuate the hypercatabolism by high tone electrical muscle stimulation (HTEMS) in AKI patients. This kind of therapy may lower protein degradation via its effect on muscle activity as well as improving insulin resistance.

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Application of electricity for pain treatment dates back to thousands of years BC. The Ancient Egyptians and later the Greeks and Romans recognized that electrical fishes are capable of generating electric shocks for relief of pain. In the 18th and 19th centuries these natural producers of electricity were replaced by man-made electrical devices.

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Epidemiological studies revealed increased renal cancer incidences and higher cancer mortalities in hypertensive individuals. Activation of the renin-angiotensin-aldosterone system leads to the formation of reactive oxygen species (ROS). In vitro, in renal cells, and ex vivo, in the isolated perfused mouse kidney, we could show DNA-damaging potential of angiotensin II (Ang II).

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Karl Peter provided the first detailed description of the structure and morphology of the human kidney and defined at least 9 major segments of the tubules. He showed that the nephrons were heterogeneous in their structure and could be divided in 2 categories: the short-looped and the long-looped ones. Peter's scheme of the human nephrons was published in many journals and textbooks.

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The neurotransmitter dopamine causes DNA damage, oxidative stress and is involved in the pathology of neurological diseases. To elucidate this potential link we investigated the mechanism of dopamine-induced DNA damage. We studied the role of the dopamine transporter (DAT) in MDCK and MDCK-DAT cells, containing the human DAT gene.

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The formation of reactive oxygen species (ROS) can be induced by xenobiotic substances, such as redox cycling molecules, but also by endogenous substances such as hormones and cytokines. Recent research shows the importance of ROS in cellular signaling. Here, the signaling pathways of the two blood pressure-regulating hormones angiotensin II and aldosterone are presented, focusing on both their physiological effects and the change of signaling owing to the action of increased concentrations or prolonged exposure.

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Parkinson's disease (PD) is a neurodegenerative movement disorder affecting about 2% of the human population in old age. L-3,4-Dihydroxyphenylalanine (L-DOPA) in combination with a peripheral aromatic amino acid decarboxylase inhibition has been the most frequently prescribed drug for alleviating symptoms of PD, but a potential contribution of L-DOPA therapy to further neurodegeneration via oxidative stress is still debated. We report that the specific oxidative stress biomarker 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG) level in peripheral blood lymphocyte DNA was elevated to 8.

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