Expression of MicroRNAs in Sepsis-Related Organ Dysfunction: A Systematic Review

Maiese, Aniello; Scatena, A; Costantino, A.; Chiti, Enrica; Occhipinti, Carla; Russa, Raffaele La; Paolo, Marco Di; Turillazzi, Emanuela; Frati, Paola; Fineschi, Vittorio

doi:10.3390/ijms23169354

Cited by 13 publications

(13 citation statements)

References 301 publications

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“…In particular, there are well-established methods of microcirculatory disorder assessment, such as intravascular bed microscopic examination [ 27 ] and determination of blood markers of pathological endotheliocyte activation, for instance, syndecan-1 [ 28 , 29 ] and angiopoietin-2 [ 30 ], as well as markers of mononuclear phagocyte activation such as sTREM1 [ 31 ] and presepsin (sCD14) [ 32 ]. In addition, the evaluation of non-coding microRNAs and extracellular vesicles in the blood is a promising method for assessing systemic inflammation, which allows for the clarification of tissue sites of activation and damage in the systemic process [ 33 , 34 ].…”

Section: Discussionmentioning

confidence: 99%

Acute and Chronic Systemic Inflammation: Features and Differences in the Pathogenesis, and Integral Criteria for Verification and Differentiation

Zotova

Zhuravleva

Черешнев

et al. 2023

IJMS

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Currently, there is rationale for separating the systemic manifestations of classical inflammation from systemic inflammation (SI) itself as an independent form of the general pathological process underlying the pathogenesis of the most severe acute and chronic diseases. With this aim in view, we used integral scales of acute and chronic SI (ChSI), including the following blood plasma parameters: interleukins 6, 8, 10; tumor necrosis factor alpha; C-reactive protein; D-dimer; cortisol; troponin I; myoglobin. The presence of multiple organ dysfunction according to the SOFA score was also taken into account. The effectiveness of the scales was tested in groups of intensive care patients during different periods of acute trauma, sepsis, and septic shock. The ChSI scale was applicable under systemic autoimmune diseases, chronic purulent infections, chronic limb threatening ischemia, and end-stage renal disease of various genesis. The number of examined patients was 764 in total. The scales allowed us to verify specific phases of acute SI and identify pathogenetic risk factors of lethal outcomes, as well as the most severe variants of the chronic pathologies course. These scales are open adaptable systems (in terms of the nomenclature and choice of indicators). They are primarily intended for scientific research. However, the SI verification methodology presented in this paper may be useful for developing advanced criteria for assessing both the typical links in the pathogenesis of many diseases and the severity of the overall condition of patients for clinical practice.

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Section: Discussionmentioning

confidence: 99%

Acute and Chronic Systemic Inflammation: Features and Differences in the Pathogenesis, and Integral Criteria for Verification and Differentiation

Zotova

Zhuravleva

Черешнев

et al. 2023

IJMS

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“…A review of the currently available data on miRNAs involved in the major target organs (heart, lung, liver, kidney and blood) during sepsis found at least 122 miRNAs and signaling pathways involved in sepsis-related organ dysfunction, which may help clinicians to detect, prevent, and treat sepsis-related organ failures early. 96 In addition, precise detection of metabolite types and levels is expected to be a potential method to assess the immune status of sepsis. During hyperinflammatory stage, small molecule drugs, microRNA targeting HIF-α-related signaling pathways and promoting M2-type polarization by metabolic regulation can be promising ways to avoid excessive inflammatory response causing multiple organ damage.…”

Section: Significance Of Metabolic Reprogramming In the Clinical Trea...mentioning

confidence: 99%

Metabolic Reprogramming and Its Regulatory Mechanism in Sepsis-Mediated Inflammation

Liu¹,

Liu²,

Zheng³

et al. 2023

JIR

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Sepsis is a systemic inflammatory disease caused by an infection that can lead to multiple organ failure. Sepsis alters energy metabolism, leading to metabolic reprogramming of immune cells, which consequently disrupts innate and adaptive immune responses, triggering hyperinflammation and immunosuppression. This review summarizes metabolic reprogramming and its regulatory mechanism in sepsis-induced hyperinflammation and immunosuppression, highlights the significance and intricacies of immune cell metabolic reprogramming, and emphasizes the pivotal role of mitochondria in metabolic regulation and treatment of sepsis. This review provides an up-to-date overview of the relevant literature to inform future research directions in understanding the regulation of sepsis immunometabolism. Metabolic reprogramming has great promise as a new target for sepsis treatment in the future.

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“…According to the current data, microRNAs (miRNAs) are the primary form of RNA delivered by exosomes. MiRNAs are small ncRNAs that are highly conserved in organisms and are approximately 20–24 nucleotides in length [ 57 ]. In recent years, miRNAs have been shown to regulate gene expression at the post-transcriptional level by pairing with mRNA 3′-untranslated regions of target genes [ 58 ].…”

Section: Exosome-specific Ncrnasmentioning

confidence: 99%

Fighting Fire with Fire: Exosomes and Acute Pancreatitis-Associated Acute Lung Injury

et al. 2022

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Acute pancreatitis (AP) is a prevalent clinical condition of the digestive system, with a growing frequency each year. Approximately 20% of patients suffer from severe acute pancreatitis (SAP) with local consequences and multi-organ failure, putting a significant strain on patients’ health insurance. According to reports, the lungs are particularly susceptible to SAP. Acute respiratory distress syndrome, a severe type of acute lung injury (ALI), is the primary cause of mortality among AP patients. Controlling the mortality associated with SAP requires an understanding of the etiology of AP-associated ALI, the discovery of biomarkers for the early detection of ALI, and the identification of potentially effective drug treatments. Exosomes are a class of extracellular vesicles with a diameter of 30–150 nm that are actively released into tissue fluids to mediate biological functions. Exosomes are laden with bioactive cargo, such as lipids, proteins, DNA, and RNA. During the initial stages of AP, acinar cell-derived exosomes suppress forkhead box protein O1 expression, resulting in M1 macrophage polarization. Similarly, macrophage-derived exosomes activate inflammatory pathways within endothelium or epithelial cells, promoting an inflammatory cascade response. On the other hand, a part of exosome cargo performs tissue repair and anti-inflammatory actions and inhibits the cytokine storm during AP. Other reviews have detailed the function of exosomes in the development of AP, chronic pancreatitis, and autoimmune pancreatitis. The discoveries involving exosomes at the intersection of AP and acute lung injury (ALI) are reviewed here. Furthermore, we discuss the therapeutic potential of exosomes in AP and associated ALI. With the continuous improvement of technological tools, the research on exosomes has gradually shifted from basic to clinical applications. Several exosome-specific non-coding RNAs and proteins can be used as novel molecular markers to assist in the diagnosis and prognosis of AP and associated ALI.

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Expression of MicroRNAs in Sepsis-Related Organ Dysfunction: A Systematic Review

Cited by 13 publications

References 301 publications

Acute and Chronic Systemic Inflammation: Features and Differences in the Pathogenesis, and Integral Criteria for Verification and Differentiation

Acute and Chronic Systemic Inflammation: Features and Differences in the Pathogenesis, and Integral Criteria for Verification and Differentiation

Metabolic Reprogramming and Its Regulatory Mechanism in Sepsis-Mediated Inflammation

Fighting Fire with Fire: Exosomes and Acute Pancreatitis-Associated Acute Lung Injury

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