From quail to earthquakes and human conflict: a historical perspective of rhabdomyolysis

Alečković-Halilović, Mirna; Pjanic, Mirha; Mešić, Enisa; Storrar, Joshua; Woywodt, Alexander

doi:10.1093/ckj/sfaa075

Cited by 20 publications

(16 citation statements)

References 77 publications

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“…All these facts underscore the importance of the research in this area. Furthermore, the cellular and molecular mechanisms of the increased sensitivity to AKI in elderly patients are incompletely understood ( Mehran et al, 2019 ; Infante et al, 2020 ; Aleckovic-Halilovic et al, 2021 ), hampering the design of any preventive or therapeutic approaches.…”

Section: Introductionmentioning

confidence: 99%

Acute Kidney Injury is Aggravated in Aged Mice by the Exacerbation of Proinflammatory Processes

et al. 2021

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Acute kidney injury (AKI) is more frequent in elderly patients. Mechanisms contributing to AKI (tubular cell death, inflammatory cell infiltration, impaired mitochondrial function, and prolonged cell-cycle arrest) have been linked to cellular senescence, a process implicated in regeneration failure and progression to fibrosis. However, the molecular and pathological basis of the age-related increase in AKI incidence is not completely understood. To explore these mechanisms, experimental AKI was induced by folic acid (FA) administration in young (3-months-old) and old (1-year-old) mice, and kidneys were evaluated in the early phase of AKI, at 48 h. Tubular damage score, KIM-1 expression, the recruitment of infiltrating immune cells (mainly neutrophils and macrophages) and proinflammatory gene expression were higher in AKI kidneys of old than of young mice. Tubular cell death in FA-AKI involves several pathways, such as regulated necrosis and apoptosis. Ferroptosis and necroptosis cell-death pathways were upregulated in old AKI kidneys. In contrast, caspase-3 activation was only found in young but not in old mice. Moreover, the antiapoptotic factor BCL-xL was significantly overexpressed in old, injured kidneys, suggesting an age-related apoptosis suppression. AKI kidneys displayed evidence of cellular senescence, such as increased levels of cyclin dependent kinase inhibitors p16ink4a and p21cip1, and of the DNA damage response marker γH2AX. Furthermore, p21cip1 mRNA expression and nuclear staining for p21cip1 and γH2AX were higher in old than in young FA-AKI mice, as well as the expression of senescence-associated secretory phenotype (SASP) components (Il-6, Tgfb1, Ctgf, and Serpine1). Interestingly, some infiltrating immune cells were p21 or γH2AX positive, suggesting that molecular senescence in the immune cells (“immunosenescence”) are involved in the increased severity of AKI in old mice. In contrast, expression of renal protective factors was dramatically downregulated in old AKI mice, including the antiaging factor Klotho and the mitochondrial biogenesis driver PGC-1α. In conclusion, aging resulted in more severe AKI after the exposure to toxic compounds. This increased toxicity may be related to magnification of proinflammatory-related pathways in older mice, including a switch to a proinflammatory cell death (necroptosis) instead of apoptosis, and overactivation of cellular senescence of resident renal cells and infiltrating inflammatory cells.

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Section: Introductionmentioning

confidence: 99%

Acute Kidney Injury is Aggravated in Aged Mice by the Exacerbation of Proinflammatory Processes

et al. 2021

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“…Convulsions, coma, and finally death may have been observed in severe toxicity. Paralysis of respiration muscles and respiratory failure can lead to death 16 …”

Section: Discussionmentioning

confidence: 99%

Mild‐to‐severe poisoning due to Coniummaculatum as toxic herb: A case series

Boskabadi

Askari

Zakariaei

et al. 2021

Clinical Case Reports

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“…In simple terms, rhabdomyolysis is the necrosis of muscle and subsequent release of intracellular components into circulation. It is now evident that rhabdomyolysis and resultant myoglobinuric AKI is a common and potentially life-threatening syndrome characterized by release of toxic muscle cell contents into the circulation [ 15 , 16 , 17 , 18 ]. On the whole, the degree of muscle damage rather than initiating factor may determine the clinical course of rhabdomyolysis ranging from asymptomatic illness to a life-threatening condition.…”

Section: Clinical Significancementioning

confidence: 99%

Heme Burden and Ensuing Mechanisms That Protect the Kidney: Insights from Bench and Bedside

Balla

Zarjou

2021

IJMS

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With iron at its core, the tetrapyrrole heme ring is a cardinal prosthetic group made up of many proteins that participate in a wide array of cellular functions and metabolism. Once released, due to its pro-oxidant properties, free heme in sufficient amounts can result in injurious effects to the kidney and other organs. Heme oxygenase-1 (HO-1) has evolved to promptly attend to such injurious potential by facilitating degradation of heme into equimolar amounts of carbon monoxide, iron, and biliverdin. HO-1 induction is a beneficial response to tissue injury in diverse animal models of diseases, including those that affect the kidney. These protective attributes are mainly due to: (i) prompt degradation of heme leading to restraining potential hazardous effects of free heme, and (ii) generation of byproducts that along with induction of ferritin have proven beneficial in a number of pathological conditions. This review will focus on describing clinical aspects of some of the conditions with the unifying end-result of increased heme burden and will discuss the molecular mechanisms that ensue to protect the kidneys.

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From quail to earthquakes and human conflict: a historical perspective of rhabdomyolysis

Cited by 20 publications

References 77 publications

Acute Kidney Injury is Aggravated in Aged Mice by the Exacerbation of Proinflammatory Processes

Acute Kidney Injury is Aggravated in Aged Mice by the Exacerbation of Proinflammatory Processes

Mild‐to‐severe poisoning due to Coniummaculatum as toxic herb: A case series

Heme Burden and Ensuing Mechanisms That Protect the Kidney: Insights from Bench and Bedside

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