Increased urinary angiotensin converting enzyme 2 and neprilysin in patients with type 2 diabetes

Gutta, Sridevi; Grobe, Nadja; Kumbaji, Meenasri; Osman, Hassan; Saklayen, Mohammad G.; Li, Gengxin; Elased, Khalid M.

doi:10.1152/ajprenal.00565.2017

Cited by 48 publications

(47 citation statements)

References 59 publications

(76 reference statements)

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“…Our previous studies have shown increased shedding of enzymatically active renal ACE2 and NEP in the urine of type 2 diabetic mice (Chodavarapu et al, ; Somineni et al, ) and in type 2 diabetic patients (Gutta et al, ). We have also shown colocalization of ACE2 and ADAM 17 in the brush border of renal proximal tubules in Akita and db / db diabetic mice (Chodavarapu et al, ; Salem, Grobe, & Elased, ).…”

Section: Discussionmentioning

confidence: 91%

“…It is important to mention that both NEP and ACE2 can counteract the effects of ACE and Ang II via the formation of Ang-(1-7). Our recent studies demonstrated increased urinary NEP in patients with type 2 diabetes compared with nondiabetic volunteers (Gutta et al, 2018). This cohort of diabetic patients were treated with different classes of antidiabetic medications including PPAR-γ agonists.…”

Section: O R I G I N a L R E S E A R C Hmentioning

confidence: 99%

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Effect of hyperglycemia and rosiglitazone on renal and urinary neprilysin indb/dbdiabetic mice

et al. 2020

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Alteration in renin‐angiotensin system (RAS) has been implicated in the pathophysiology of diabetic kidney disease (DKD). The deleterious actions of angiotensin II (Ang II) could be antagonized by the formation of Ang‐(1–7), generated by the actions of angiotensin‐converting enzyme 2 (ACE2) and neprilysin (NEP). NEP degrades several peptides, including natriuretic peptides, bradykinin, amyloid beta, and Ang I. Although combination of Ang II receptor and NEP inhibitor treatment benefits patients with heart failure, the role of NEP in renal pathophysiology is a matter of active research. NEP pathway is a potent enzyme in Ang I to Ang‐(1–7) conversion in the kidney of ACE2‐deficient mice, suggesting a renoprotective role of NEP. The aim of the study is to test the hypothesis that chronic hyperglycemia downregulates renal NEP protein expression and activity in db/db diabetic mice and treatment with rosiglitazone normalizes hyperglycemia, renal NEP expression, and attenuates albuminuria. Mice received rosiglitazone (20 mg kg−1 day−1) for 10 weeks. Western blot analysis, immunohistochemistry, and enzyme activity revealed a significant decrease in renal and urinary NEP expression and activity in 16‐wk db/db mice compared with lean control (p < .0001). Rosiglitazone also attenuated albuminuria and increased renal and urinary NEP expressions (p < .0001). In conclusion, data support the hypothesis that diabetes decreases intrarenal NEP, which could have a pivotal role in the pathogenesis of DKD. Urinary NEP may be used as an index of intrarenal NEP status. The renoprotective effects of rosiglitazone could be mediated by upregulation of renal NEP expression and activity in db/db diabetic mice.

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Section: Discussionmentioning

confidence: 91%

Section: O R I G I N a L R E S E A R C Hmentioning

confidence: 99%

Effect of hyperglycemia and rosiglitazone on renal and urinary neprilysin indb/dbdiabetic mice

et al. 2020

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“…However, other reports indicate increased levels of ACE2 in the heart, liver, and lungs of mice with diabetes (85) and it has been suggested that this could make these tissues more vulnerable to SARS-CoV-2 infection and contribute to an increased risk of MOF in patients with diabetes. Evidence from humans indicate that levels of ACE2 in urine are increased in patients with type I diabetes (86) and type II diabetes (87) and positively related to blood glucose and HbA1c levels (88). It is not yet clear however, whether increased ACE2 in the urine is due to increased shedding of ACE2 in the kidney or whether it reflects increased circulating or systemic tissue levels.…”

Section: Angiotensin Converting Enzyme 2 (Ace2)mentioning

confidence: 99%

Obesity, Diabetes and COVID-19: An Infectious Disease Spreading From the East Collides With the Consequences of an Unhealthy Western Lifestyle

et al. 2020

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The pandemic of COVID-19, caused by the coronavirus, SARS-CoV-2, has had a global impact not seen for an infectious disease for over a century. This acute pandemic has spread from the East and has been overlaid onto a slow pandemic of metabolic diseases of obesity and diabetes consequent from the increasing adoption of a Western-lifestyle characterized by excess calorie consumption with limited physical activity. It has become clear that these conditions predispose individuals to a more severe COVID-19 with increased morbidity and mortality. There are many features of diabetes and obesity that may accentuate the clinical response to SARS-CoV-2 infection: including an impaired immune response, an atherothrombotic state, accumulation of advanced glycation end products and a chronic inflammatory state. These could prime an exaggerated cytokine response to viral infection, predisposing to the cytokine storm that triggers progression to septic shock, acute respiratory distress syndrome, and multi-organ failure. Infection leads to an inflammatory response and tissue damage resulting in increased metabolic activity and an associated increase in the mechanisms by which cells ingest and degrade tissue debris and foreign materials. It is becoming clear that viruses have acquired an ability to exploit these mechanisms to invade cells and facilitate their own life-cycle. In obesity and diabetes these mechanisms are chronically activated due to the deteriorating metabolic state and this may provide an increased opportunity for a more profound and sustained viral infection.

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“…This shedding is stimulated by high glucose and Ang II, can increase Ang II-degrading products in the urine of DN patients, and could serve as a biomarker of early kidney injury ( Xiao et al, 2014 ). Furthermore, urinary ADAM17 and its substrate, ACE2, are increased in diabetic patients and its model mice ( Chodavarapu et al, 2013 ; Gutta et al, 2018 ), and the shedding fragments could also be an early biomarker to predict DN-induced CKD.…”

Section: Substrates Of Adam10 and 17 In Kidneys (Summarized In Tablementioning

confidence: 99%

“…ADAM10 and 17 are closely correlated with renal injuries including excess inflammation and tubular cell destruction. In addition to their substrates, ADAM10 and 17 per se are also important biomarkers of renal dysfunctions, such as early DN ( Petrica et al, 2017 ; Gutta et al, 2018 ). Furthermore, many efforts have been made to develop strategies to block ADAM10 and 17 activities involving small molecules and monoclonal antibodies (Figure 2 ).…”

Section: Adam10 and Adam17 As Clinical Targetsmentioning

confidence: 99%

Renal ADAM10 and 17: Their Physiological and Medical Meanings

Kato

Hagiyama

Ito

2018

Front. Cell Dev. Biol.

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A disintegrin and metalloproteinases (ADAMs) are a Zn2+-dependent transmembrane and secreted metalloprotease superfamily, so-called “molecular scissors,” and they consist of an N-terminal signal sequence, a prodomain, zinc-binding metalloprotease domain, disintegrin domain, cysteine-rich domain, transmembrane domain and cytoplasmic tail. ADAMs perform proteolytic processing of the ectodomains of diverse transmembrane molecules into bioactive mediators. This review summarizes on their most well-known members, ADAM10 and 17, focusing on the kidneys. ADAM10 is expressed in renal tubular cells and affects the expression of specific brush border genes, and its activation is involved in some renal diseases. ADAM17 is weakly expressed in normal kidneys, but its expression is markedly induced in the tubules, capillaries, glomeruli, and mesangium, and it is involved in interstitial fibrosis and tubular atrophy. So far, the various substrates have been identified in the kidneys. Shedding fragments become released ligands, such as Notch and EGFR ligands, and act as the chemoattractant factors including CXCL16. Their ectodomain shedding is closely correlated with pathological factors, which include inflammation, interstitial fibrosis, and renal injury. Also, the substrates of both ADAMs contain the molecules that play important roles at the plasma membrane, such as meaprin, E-cadherin, Klotho, and CADM1. By being released into urine, the shedding products could be useful for biomarkers of renal diseases, but ADAM10 and 17 per se are also notable as biomarkers. Furthermore, ADAM10 and/or 17 inhibitions based on various strategies such as small molecules, antibodies, and their recombinant prodomains are valuable, because they potentially protect renal tissues and promote renal regeneration. Although temporal and spatial regulations of inhibitors are problems to be solved, their inhibitors could be useful for renal diseases.

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Increased urinary angiotensin converting enzyme 2 and neprilysin in patients with type 2 diabetes

Cited by 48 publications

References 59 publications

Effect of hyperglycemia and rosiglitazone on renal and urinary neprilysin indb/dbdiabetic mice

Effect of hyperglycemia and rosiglitazone on renal and urinary neprilysin indb/dbdiabetic mice

Obesity, Diabetes and COVID-19: An Infectious Disease Spreading From the East Collides With the Consequences of an Unhealthy Western Lifestyle

Renal ADAM10 and 17: Their Physiological and Medical Meanings

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