Intestinal microbiota dysbiosis in acute kidney injury: novel insights into mechanisms and promising therapeutic strategies

Lei, Juan; Xie, Yifan; Sheng, Jingyi; Song, Jiayu

doi:10.1080/0886022x.2022.2056054

Cited by 17 publications

(14 citation statements)

References 116 publications

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“…On the other hand, the overgrowth of Anaerosporobacter and Blautia was associated with metabolic dysfunctions in diabetic nephropathy (DN) [ 23 , 24 ]. Interestingly, recent evidence has indicated that intestinal dysbiosis also occurs in acute kidney injury (AKI) [ 25 ]. For instance, Andrianova et al demonstrated by an in vivo study that alterations in the microbiome composition occurred following renal ischemia/reperfusion injury (IRI), and several bacteria including Rothia and Staphylococcus were linked to the high degree of injury [ 26 ].…”

Section: The Gut Microbiome In Health and Kidney Diseasementioning

confidence: 99%

“…Compared with CKD, interest in uremic toxins in AKI was in its infancy in 2009, and the existence of gut–kidney crosstalk in AKI was frequently debated. Today, it is well-established through a variety of experimental animal studies and clinical trials that acute renal damage negatively shapes the microbiota composition [ 25 ]. Importantly, the AKI–microbiota relationship is bidirectional: on the one hand, AKI can cause dysbiosis; on the other hand, the microbial shift influences the severity of the renal injury.…”

Section: The Gut–kidney Axismentioning

confidence: 99%

See 1 more Smart Citation

Fecal Microbiota Transplantation in Reducing Uremic Toxins Accumulation in Kidney Disease: Current Understanding and Future Perspectives

Caggiano

Stasi

Franzin

et al. 2023

Toxins

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During the past decades, the gut microbiome emerged as a key player in kidney disease. Dysbiosis-related uremic toxins together with pro-inflammatory mediators are the main factors in a deteriorating kidney function. The toxicity of uremic compounds has been well-documented in a plethora of pathophysiological mechanisms in kidney disease, such as cardiovascular injury (CVI), metabolic dysfunction, and inflammation. Accumulating data on the detrimental effect of uremic solutes in kidney disease supported the development of many strategies to restore eubiosis. Fecal microbiota transplantation (FMT) spread as an encouraging treatment for different dysbiosis-associated disorders. In this scenario, flourishing studies indicate that fecal transplantation could represent a novel treatment to reduce the uremic toxins accumulation. Here, we present the state-of-the-art concerning the application of FMT on kidney disease to restore eubiosis and reverse the retention of uremic toxins.

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Section: The Gut Microbiome In Health and Kidney Diseasementioning

confidence: 99%

Section: The Gut–kidney Axismentioning

confidence: 99%

Fecal Microbiota Transplantation in Reducing Uremic Toxins Accumulation in Kidney Disease: Current Understanding and Future Perspectives

Caggiano

Stasi

Franzin

et al. 2023

Toxins

View full text Add to dashboard Cite

show abstract

“…There is now evidence that intestinal dysbiosis is closely linked to AKI, shedding light on kidney-intestine crosstalk in AKI [176][177][178]. Zhu et al [179] demonstrated that the supplementation of Lactobacillus casei Zhang could prevent AKI and impede the progression of CKD by improving intestinal flora, increasing the levels of short chain fatty acids (SCFAs) and nicotinamide in the serum and kid-Yang et al [176] reported that the increase of Enterobacteriaceae and the decrease of Lactobacillus and Ruminococcus were hallmarks of dysbiosis induced by IRI and were related to the decreased levels of SCFAs, intestinal inflammation, and the leaky gut.…”

Section: Intestinal Microbiotamentioning

confidence: 99%

The Molecular Mechanism and Therapeutic Strategy of Cardiorenal Syndrome Type 3

Liu¹,

Xu²,

Shao³

et al. 2023

Rev. Cardiovasc. Med.

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Cardiorenal syndrome type 3 (CRS3) is defined as acute kidney injury (AKI)-induced acute cardiac dysfunction, characterized by high morbidity and mortality. CRS3 often occurs in elderly patients with AKI who need intensive care. Approximately 70% of AKI patients develop into CRS3. CRS3 may also progress towards chronic kidney disease (CKD) and chronic cardiovascular disease (CVD). However, there is currently no effective treatment. Although the major intermediate factors that can mediate cardiac dysfunction remain elusive, recent studies have summarized the AKI biomarkers, identified direct mechanisms, including mitochondrial dysfunction, inflammation, oxidative stress, apoptosis and activation of the sympathetic nervous system (SNS) and renin-angiotensin-aldosterone system (RAAS), inflammasome, as well as indirect mechanisms such as fluid overload, electrolyte imbalances, acidemia and uremic toxins, which are involved in the pathophysiological changes of CRS3. This study reviews the main pathological characteristics, underlying molecular mechanisms, and potential therapeutic strategies of CRS3. Mitochondrial dysfunction and inflammatory factors have been identified as the key initiators and abnormal links between the impaired heart and kidney, which contribute to the formation of a vicious circle, ultimately accelerating the progression of CRS3. Therefore, targeting mitochondrial dysfunction, antioxidants, Klotho, melatonin, gene therapy, stem cells, exosomes, nanodrugs, intestinal microbiota and Traditional Chinese Medicine may serve as promising therapeutic approaches against CRS3.

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“…The gut–kidney axis has been investigated in a number of clinical studies, mostly in CKD [ 108 , 109 , 110 , 111 ]. In septic AKI, impaired gut barrier permeability, with the translocation of bacterial and inflammatory molecules, has also been shown to be associated with the progression of kidney injury and the AKI to CKD transition [ 112 , 113 ]. However, more clinical data are needed to precisely explore the gut–kidney axis and both PUBT generation and accumulation in AKI.…”

Section: Gut-derived Protein-bound Uremic Toxins and Cardiovascular D...mentioning

confidence: 99%

The Role of Gut-Derived, Protein-Bound Uremic Toxins in the Cardiovascular Complications of Acute Kidney Injury

Caillard

Bennis

Six

et al. 2022

Toxins

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Acute kidney injury (AKI) is a frequent disease encountered in the hospital, with a higher incidence in intensive care units. Despite progress in renal replacement therapy, AKI is still associated with early and late complications, especially cardiovascular events and mortality. The role of gut-derived protein-bound uremic toxins (PBUTs) in vascular and cardiac dysfunction has been extensively studied during chronic kidney disease (CKD), in particular, that of indoxyl sulfate (IS), para-cresyl sulfate (PCS), and indole-3-acetic acid (IAA), resulting in both experimental and clinical evidence. PBUTs, which accumulate when the excretory function of the kidneys is impaired, have a deleterious effect on and cause damage to cardiovascular tissues. However, the link between PBUTs and the cardiovascular complications of AKI and the pathophysiological mechanisms potentially involved are unclear. This review aims to summarize available data concerning the participation of PBUTs in the early and late cardiovascular complications of AKI.

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Intestinal microbiota dysbiosis in acute kidney injury: novel insights into mechanisms and promising therapeutic strategies

Cited by 17 publications

References 116 publications

Fecal Microbiota Transplantation in Reducing Uremic Toxins Accumulation in Kidney Disease: Current Understanding and Future Perspectives

Fecal Microbiota Transplantation in Reducing Uremic Toxins Accumulation in Kidney Disease: Current Understanding and Future Perspectives

The Molecular Mechanism and Therapeutic Strategy of Cardiorenal Syndrome Type 3

The Role of Gut-Derived, Protein-Bound Uremic Toxins in the Cardiovascular Complications of Acute Kidney Injury

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