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Ferritin - from iron, through inflammation and autoimmunity, to COVID-19.
Mahroum, N, Alghory, A, Kiyak, Z, Alwani, A, Seida, R, Alrais, M, Shoenfeld, Y
Journal of autoimmunity. 2022;:102778
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Abstract
While it took decades to arrive to a conclusion that ferritin is more than an indicator of iron storage level, it took a short period of time through the COVID-19 pandemic to wonder what the reason behind high levels of ferritin in patients with severe COVID-19 might be. Unsurprisingly, acute phase reactant was not a satisfactory explanation. Moreover, the behavior of ferritin in patients with severe COVID-19 and the subsequent high mortality rates in patients with high ferritin levels necessitated further investigations to understand the role of ferritin in the diseases. Ferritin was initially described to accompany various acute infections, both viral and bacterial, indicating an acute response to inflammation. However, with the introduction of the hyperferritinemic syndrome connecting four severe pathological conditions such as adult-onset Still's disease, macrophage activation syndrome, catastrophic antiphospholipid syndrome, and septic shock added another aspect of ferritin where it could have a pathogenetic role rather than an extremely elevated protein only. In fact, suggesting that COVID-19 is a new member in the spectrum of hyperferritinemic syndrome besides the four mentioned conditions could hopefully direct further search on the pathogenetic role of ferritin. Doubtlessly, improving our understanding of those aspects of ferritin would enormously contribute to better coping with severe diseases in terms of treatment and prevention of complications. The origin, history, importance, and the advances of searching the role of ferritin in various pathological and clinical processes are presented hereby in our article. In addition, the implications of ferritin in COVID-19 are addressed.
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A Review on Natural Sources Derived Protein Nanoparticles as Anticancer Agents.
Bhattacharya, T, Maishu, SP, Akter, R, Rahman, MH, Akhtar, MF, Saleem, A, Bin-Jumah, M, Kamel, M, Abdel-Latif, MA, Abdel-Daim, MM
Current topics in medicinal chemistry. 2021;(12):1014-1026
Abstract
Cancer notably carcinoma represents a prominent health challenge worldwide. A variety of chemotherapeutic agents are being used to deal with a variety of carcinomas. However, these delivering agents not only enter the targeted site but also affect normal tissues yielding poor therapeutic outcomes. Chemotherapeutic-associated problems are being attributed to drug non-specificity resulting from poor drug delivery systems. These problems are now being solved using nanomedicine, which entails using nanoparticles as drug delivery systems or nanocarriers. This nanoparticle-based drug delivery system enhances clinical outcomes by enabling targeted delivery, improving drug internalization, enhanced permeability, easy biodistribution, prolonged circulation and enhanced permeability rate, thereby improving the therapeutic effectiveness of several anticancer agents. Natural Protein-based Nanoparticles (PNPs) such as ferritin, lipoprotein, and lectins from natural sources have gained extensive importance at a scientific community level as nanovehicle for effective drug delivery and photo acoustic labeling replacing several synthetic nanocarriers that have shown limited therapeutic outcomes. The bioavailability of PNP, the chance of genetic engineering techniques to modify their biological properties made them one of the important raw material sources for drug delivery research. This current review highlighted different chemotherapeutic agents used in the treatment of some carcinomas. It also focused on the wide variety of natural protein sources derived nanoparticles (NPs) as anticancer delivery of agents for cancer therapy.
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Iron Homeostasis and Ferritin in Sepsis-Associated Kidney Injury.
McCullough, K, Bolisetty, S
Nephron. 2020;(12):616-620
Abstract
Sepsis associated acute kidney injury (SA-AKI) is a common clinical syndrome that occurs among hospitalized patients and significantly impacts mortality. Furthermore, survival after sepsis is intricately dependent on recovery of kidney function. In this review, we discuss the role of iron imbalance in mediating the pathogenic events during sepsis. Intracellular ferritin serves as a repository for iron and prevents iron-mediated injury and may limit the availability of iron to pathogens. Circulating levels of ferritin also increase during sepsis and often correlate with severity of sepsis. Herein, we examine preclinical and clinical data and discuss recent findings that suggest immunomodulatory roles for ferritin. We also discuss the possible mechanistic roles for ferritin in mitigating the pathogenic sequelae of sepsis and highlight current gaps in knowledge.
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Iron in the General Population and Specificities in Older Adults: Metabolism, Causes and Consequences of Decrease or Overload, and Biological Assessment.
Manckoundia, P, Konaté, A, Hacquin, A, Nuss, V, Mihai, AM, Vovelle, J, Dipanda, M, Putot, S, Barben, J, Putot, A
Clinical interventions in aging. 2020;:1927-1938
Abstract
Iron is involved in many types of metabolism, including oxygen transport in hemoglobin. Iron deficiency (ID), ie a decrease in circulating iron, can have severe consequences. We provide an update on iron metabolism and ID, highlighting the particularities in older adults (OAs). There are three iron compartments in the human body: 1) the functional compartment, which consists of heme proteins including hemoglobin, myoglobin and respiratory enzymes; 2) iron reserves (IR), which consist mainly of liver stocks and are stored as ferritin; and 3) transferrin. There are two types of ID. Absolute ID is characterized by a decrease in IR. Its main pathophysiological mechanism is bleeding, which is often digestive and can be due to neoplasia, frequent in OAs. Biological assessment shows low serum ferritin and transferrin saturation (TS) levels. Furthermore, hypochromic microcytic anemia is frequent, and the serum-soluble transferrin receptor (sTfR) level is high. Functional ID, in which IR are high or normal, is due to inflammation, which is also frequent in OAs, particularly in its chronic form. Biological assessments show high serum ferritin, normal or low TS, and normal sTfR levels. Moreover, C-reactive protein is elevated, and there is moderate non-regenerative non-macrocytic anemia. The main characteristics of iron metabolism anomalies in the elderly are the high frequency of ID (20% of ID with anemia in adults ≥85 years) and the severity of its consequences, which include cognitive impairment in case of ID or iron overload and decrease of physical activity in case of ID. In conclusion, causes of ID are frequently intertwined in OAs as a result of the polymorbidity that characterizes them. ID can have dramatic consequences, especially in frail OAs. Thus, measuring the appropriate biological markers prevents errors in the positive diagnosis of ID type, clarifies etiology, and informs treatment-related decision-making.
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Hyperferritinemia in critically ill COVID-19 patients - Is ferritin the product of inflammation or a pathogenic mediator?
Gómez-Pastora, J, Weigand, M, Kim, J, Wu, X, Strayer, J, Palmer, AF, Zborowski, M, Yazer, M, Chalmers, JJ
Clinica chimica acta; international journal of clinical chemistry. 2020;:249-251
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COVID-19 as part of the hyperferritinemic syndromes: the role of iron depletion therapy.
Perricone, C, Bartoloni, E, Bursi, R, Cafaro, G, Guidelli, GM, Shoenfeld, Y, Gerli, R
Immunologic research. 2020;(4):213-224
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Abstract
SARS-CoV-2 infection is characterized by a protean clinical picture that can range from asymptomatic patients to life-threatening conditions. Severe COVID-19 patients often display a severe pulmonary involvement and develop neutrophilia, lymphopenia, and strikingly elevated levels of IL-6. There is an over-exuberant cytokine release with hyperferritinemia leading to the idea that COVID-19 is part of the hyperferritinemic syndrome spectrum. Indeed, very high levels of ferritin can occur in other diseases including hemophagocytic lymphohistiocytosis, macrophage activation syndrome, adult-onset Still's disease, catastrophic antiphospholipid syndrome and septic shock. Numerous studies have demonstrated the immunomodulatory effects of ferritin and its association with mortality and sustained inflammatory process. High levels of free iron are harmful in tissues, especially through the redox damage that can lead to fibrosis. Iron chelation represents a pillar in the treatment of iron overload. In addition, it was proven to have an anti-viral and anti-fibrotic activity. Herein, we analyse the pathogenic role of ferritin and iron during SARS-CoV-2 infection and propose iron depletion therapy as a novel therapeutic approach in the COVID-19 pandemic.
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Iron deficiency among blood donors: experience from the Danish Blood Donor Study and from the Copenhagen ferritin monitoring scheme.
Rigas, AS, Pedersen, OB, Magnussen, K, Erikstrup, C, Ullum, H
Transfusion medicine (Oxford, England). 2019;:23-27
Abstract
Blood components collected from blood donors are an invaluable part of modern-day medicine. A healthy blood donor population is therefore of paramount importance. The results from the Danish Blood Donor Study (DBDS) indicate that gender, number of previous donations, time since last donation and menopausal status are the strongest predictors of iron deficiency. Only little information on the health effects of iron deficiency in blood donors exits. Possibly, after a standard full blood donation, a temporarily reduced physical performance for women is observed. However, iron deficiency among blood donors is not reflected in a reduced self-perceived mental and physical health. In general, the high proportion of iron-deficient donors can be alleviated either by extending the inter-donation intervals or by guided iron supplementation. The experience from Copenhagen, the Capital Region of Denmark, is that routine ferritin measurements and iron supplementation are feasible and effective ways of reducing the proportion of donors with low haemoglobin levels.
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Hyperferritinaemia: An Iron Sword of Autoimmunity.
Giemza-Stokłosa, J, Islam, MA, Kotyla, PJ
Current pharmaceutical design. 2019;(27):2909-2918
Abstract
BACKGROUND Ferritin is a molecule that plays many roles being the storage for iron, signalling molecule, and modulator of the immune response. METHODS Different electronic databases were searched in a non-systematic way to find out the literature of interest. RESULTS The level of ferritin rises in many inflammatory conditions including autoimmune disorders. However, in four inflammatory diseases (i.e., adult-onset Still's diseases, macrophage activation syndrome, catastrophic antiphospholipid syndrome, and sepsis), high levels of ferritin are observed suggesting it as a remarkable biomarker and pathological involvement in these diseases. Acting as an acute phase reactant, ferritin is also involved in the cytokine-associated modulator of the immune response as well as a regulator of cytokine synthesis and release which are responsible for the inflammatory storm. CONCLUSION This review article presents updated information on the role of ferritin in inflammatory and autoimmune diseases with an emphasis on hyperferritinaemic syndrome.
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Iron Deficiency in Heart Failure: An Overview.
von Haehling, S, Ebner, N, Evertz, R, Ponikowski, P, Anker, SD
JACC. Heart failure. 2019;(1):36-46
Abstract
Iron deficiency is an extremely common comorbidity in patients with heart failure, affecting up to 50% of all ambulatory patients. It is associated with reduced exercise capacity and physical well-being and reduced quality of life. Cutoff values have been identified for diagnosing iron deficiency in heart failure with reduced ejection fraction as serum ferritin, <100 μg/l, or ferritin, 100 to 300 μg/l, with transferrin saturation of <20%. Oral iron products have been shown to have little efficacy in heart failure, where the preference is intravenous iron products. Most clinical studies have been performed using ferric carboxymaltose with good efficacy in terms of improvements in 6-min walk test distance, peak oxygen consumption, quality of life, and improvements in New York Heart Association functional class. Data from meta-analyses also suggest beneficial effects for hospitalization rates for heart failure and reduction in cardiovascular mortality rates. A prospective trial to investigate effects on morbidity and mortality is currently ongoing. This paper highlights current knowledge of the pathophysiology of iron deficiency in heart failure, its prevalence and clinical impact, and its possible treatment options.
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10.
Investigation and management of a raised serum ferritin.
Cullis, JO, Fitzsimons, EJ, Griffiths, WJ, Tsochatzis, E, Thomas, DW, ,
British journal of haematology. 2018;(3):331-340
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Abstract
Serum ferritin level is one of the most commonly requested investigations in both primary and secondary care. Whilst low serum ferritin levels invariably indicate reduced iron stores, raised serum ferritin levels can be due to multiple different aetiologies, including iron overload, inflammation, liver or renal disease, malignancy, and the recently described metabolic syndrome. A key test in the further investigation of an unexpected raised serum ferritin is the serum transferrin saturation. This guideline reviews the investigation and management of a raised serum ferritin level. The investigation and management of genetic haemochromatosis is not dealt with however and is the subject of a separate guideline.