Acute and Chronic Iron Overloading Differentially Modulates the Expression of Cellular Iron-homeostatic Molecules in Normal Rat Kidney

Refaat, Bassem; Abdelghany, Abdelghany H.; BaSalamah, Mohammad A.; El‐Boshy, Mohamed; Ahmad, Jawwad; Idris, Shakir

doi:10.1369/0022155418782696

Cited by 33 publications

(25 citation statements)

References 55 publications

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“…). The increased renal hepcidin production with decreased renal ferritin during acute renal iron load observed by Refaat et al seems to be in line with the previous studies . Still, the molecular pathways that induce hepcidin upregulation during hem‐induced injury are to be resolved .…”

Section: Renal Hepcidin Expression and Regulationsupporting

confidence: 80%

“…Hepcidin treatment reduces the levels of 4-HNE (marker of oxidative stress)RT-PCR, western blot, mass spectrometry in mouse model with hemoglobin-induced kidney injury Systemic hepcidin downregulates renal FPN protein levels van Swelm et al[21] Treatment with hepcidin in hemoglobin-induced kidney injury increases renal hepcidin expressionHemoglobin reduces the level of systemic hepcidin absorption in distal tubule, but it induces renal hepcidin expressionSystemic hepcidin is absorbed in proximal tubule via megalin Treatment with hepcidin reduces renal IL-6 and NGAL mRNA RT-PCR, immunofluorescence, ELISA in rat models Acute iron load increases renal hepcidin protein levels Refaat et al[50] …”

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confidence: 99%

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Systemic and local hepcidin as emerging and important peptides in renal homeostasis and pathology

Vela

2018

BioFactors

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Recent data suggest that the importance of hepcidin goes beyond its classical role in controlling systemic iron metabolism. Local hepcidins are emerging as important peptides for organ homeostasis in the brain, heart, blood vessels, and in cancer as well. Similarly, accumulating data indicate that hepcidin does seem to be an important factor in renal homeostasis. This review encompasses present knowledge concerning the role of hepcidin in renoprotection and its use as a biomarker of kidney diseases. Understanding the role of hepcidin in kidneys is important due to its relevance for kidney physiology and its potential therapeutic application in kidney pathologies. © 2018 BioFactors, 45(2):118–134, 2019

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Section: Renal Hepcidin Expression and Regulationsupporting

confidence: 80%

mentioning

confidence: 99%

Systemic and local hepcidin as emerging and important peptides in renal homeostasis and pathology

Vela

2018

BioFactors

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“…Stained sections were observed at ×40 magnification on an EVOS FL microscopy. Apoptotic bodies were identified by the emission of green fluorescence dye and the apoptosis index was calculated by counting the percentage of apoptotic/necrotic cells in 15 random nonoverlapping fields from each tissue section using the cell counter tool provided with the microscope software, as previously described …”

Section: Methodsmentioning

confidence: 99%

“…Apoptotic bodies were identified by the emission of green fluorescence dye and the apoptosis index was calculated by counting the percentage of apoptotic/necrotic cells in 15 random nonoverlapping fields from each tissue section using the cell counter tool provided with the microscope software, as previously described. [42] 2.9 | Quantitative reverse transcription-polymerase chain reaction Table S1), and 1 µL cDNA (25 ng). The NCs included a minus-reverse transcription (RT) control from the previous RT step and another minus-template PCR, in which nuclease-free water was used as a template.…”

Section: Immunofluorescence Stainingmentioning

confidence: 99%

Vitamin D₃ and calcium cosupplementation alleviates cadmium hepatotoxicity in the rat: Enhanced antioxidative and anti‐inflammatory actions by remodeling cellular calcium pathways

El‐Boshy

Refaat

Almaimani

et al. 2020

J Biochem & Molecular Tox

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Although vitamin D (VD) and calcium (Ca) attenuate cadmium (Cd) metabolism, their combined antioxidant and anti‐inflammatory actions against Cd toxicity have not been previously explored. Hence, this study measured the protective effects of VD ± Ca supplements against Cd hepatotoxicity. Forty adult male rats were distributed to: negative controls (NCs), positive controls (PCs), VD, Ca, and VD3 and Ca (VDC) groups. All groups, except NC, received CdCl2 in drinking water (44 mg/L) for 4 weeks individually or concurrently with intramuscular VD3 (600 IU/kg; three times per week) and/or oral Ca (100 mg/kg; five times per week). The PC group showed abnormal hepatic biochemical parameters and increase in cellular cytochrome C, caspase‐9, and caspase‐3 alongside the apoptotic/necrotic cell numbers by terminal deoxynucleotidyl transferase dUTP nick end labeling technique. The PC hepatic tissue also had substantially elevated pro‐oxidants (malondialdehyde [MDA]/H2O2/protein carbonyls) and inflammatory cytokines (interleukin 1β [IL‐1β]/IL‐6/IL17A/tumor necrosis factor‐α), whereas the anti‐inflammatory (IL‐10/IL‐22) and antioxidants (glutathione [GSH]/GPx/catalase enzyme [CAT]) markers declined. Hypovitaminosis D, low hepatic tissue Ca, aberrant hepatic expression of VD‐metabolizing enzymes (Cyp2R1/Cyp27a1/cyp24a1), receptor and binding protein alongside Ca‐membrane (CaV1.1/CaV3.1), and store‐operated (RyR1/ITPR1) channels, and Ca‐binding proteins (CAM/CAMKIIA/S100A1/S100B) were observed in the PC group. Both monotherapies decreased serum, but not tissue Cd levels, restored the targeted hepatic VD/Ca molecules' expression. However, these effects were more prominent in the VD group than the Ca group. The VDC group, contrariwise, disclosed the greatest alleviations on serum and tissue Cd, inflammatory and oxidative markers, the VD/Ca molecules and tissue integrity. In conclusion, this report is the first to reveal boosted protection for cosupplementing VD and Ca against Cd hepatotoxicity that could be due to enhanced antioxidative, anti‐inflammatory, and modulation of the Ca pathways.

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“…Metabolic or cardio metabolic changes occur in the organism due to iron deficiency or excessive accumulation. In addition, iron deficiency creates differences in thyroid hormone metabolism and hematological parameters (Chifman et al, 2014;Corrales-Agudelo et al, 2016;Gallego-Narbón et al, 2019;Pantopoulos et al, 2012;Refaat et al, 2018;Vincent et al, 2019). Iron is one of the important determinants of athletic performance efficiency and endurance parameters in athletes due to its effect on oxidative metabolism (Denis & Conway, 2019;Hinton, 2014;Nandadeva et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Effects of Endurance Workouts on Thyroid Hormone Metabolism and Biochemical Markers in Athletes

Erdoğan

2020

BRAIN

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Objective: Exercises can create differences in the organism by affecting the hormonal system and hemostasis. Evaluation of hormonal changes along with physical activity, many factors such as physical and physiological state of athletes, environmental factors and nutritional status are effective and affect the performance. In this study, as a result of endurance workouts, chronic changes in athletes' thyroid hormone metabolism and biochemical markers were evaluated. Method: 16 male athletes formed the research group. The athletes participating in the study received endurance training for 60 minutes a day, three days a week for 12 weeks. Blood samples were taken from the athletes before the session and after the session. The levels of Thyroid hormones, iron, iron binding capacity, UIBC, erythrocyte, leukocyte and platelet were determined in blood samples. Data were considered by using SPSS statistical package software. Findings: A significant difference was observed in athletes' thyroid hormone values as a result of the training sessions: Thyroid Stimulating Hormone (TSH), Thyroxine (T4) and Triiodothyronine (T3) levels were detected to be statistically different in pre-post test (p <0,05). As a result of the applied workouts changes were observed in the erythrocyte, leukocyte and platelet values of the athletes, and a significant difference was seen in general (p <0,05). Results: Applied regular and long-term endurance training created differences in athletes' thyroid hormone metabolism and biochemical markers. It is thought that these findings will positively affect the fight against the stress experienced by athletes during their competitions and increase their performance.

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Acute and Chronic Iron Overloading Differentially Modulates the Expression of Cellular Iron-homeostatic Molecules in Normal Rat Kidney

Cited by 33 publications

References 55 publications

Systemic and local hepcidin as emerging and important peptides in renal homeostasis and pathology

Systemic and local hepcidin as emerging and important peptides in renal homeostasis and pathology

Vitamin D₃ and calcium cosupplementation alleviates cadmium hepatotoxicity in the rat: Enhanced antioxidative and anti‐inflammatory actions by remodeling cellular calcium pathways

Effects of Endurance Workouts on Thyroid Hormone Metabolism and Biochemical Markers in Athletes

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Acute and Chronic Iron Overloading Differentially Modulates the Expression of Cellular Iron-homeostatic Molecules in Normal Rat Kidney

Cited by 33 publications

References 55 publications

Systemic and local hepcidin as emerging and important peptides in renal homeostasis and pathology

Systemic and local hepcidin as emerging and important peptides in renal homeostasis and pathology

Vitamin D3 and calcium cosupplementation alleviates cadmium hepatotoxicity in the rat: Enhanced antioxidative and anti‐inflammatory actions by remodeling cellular calcium pathways

Effects of Endurance Workouts on Thyroid Hormone Metabolism and Biochemical Markers in Athletes

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Vitamin D₃ and calcium cosupplementation alleviates cadmium hepatotoxicity in the rat: Enhanced antioxidative and anti‐inflammatory actions by remodeling cellular calcium pathways