Selective tubular activation of hypoxia-inducible factor-2α has dual effects on renal fibrosis

Kong, Kyoung Hye; Oh, Hyung Jung; Lim, Beom Jin; Kim, Minsuk; Han, Ki Hwan; Choi, Youn Hee; Kwon, Kihwan; Nam, Bo Young; Park, Kyoung Sook; Park, Sun-Hee; Han, Seung Hyeok; Yoo, Tae‐Hyun; Lee, Shina; Kim, Seung Jung; Kang, Duk Hee; Choi, Kyu Bok; Eremina, Vera; Quaggin, Susan E.; Ryu, Dong Ryeol; Kang, Shin Wook

doi:10.1038/s41598-017-11829-2

Cited by 31 publications

(27 citation statements)

References 33 publications

(44 reference statements)

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“…These apparently conflicting findings may be reconciled by a framework that proposes that the effects of hypoxia‐inducible factor stimulation depend both on the isoform and the stage of chronic kidney disease. Activation of HIF‐1α early in the disease process may have deleterious effects by promoting inflammation and fibrosis, whereas stimulation of HIF‐2α at a later stage may exert an anti‐inflammatory and antifibrotic action by promoting autophagy and reducing oxidative stress . It is therefore noteworthy that AMPK activation decreases the activity of HIF‐1α, whereas increased SIRT signalling stimulates HIF‐2α …”

Section: Are Sglt2 Inhibitors Renoprotective Through An Action To Stimentioning

confidence: 99%

Interplay of adenosine monophosphate‐activated protein kinase/sirtuin‐1 activation and sodium influx inhibition mediates the renal benefits of sodium‐glucose co‐transporter‐2 inhibitors in type 2 diabetes: A novel conceptual framework

Packer

2020

Diabetes Obesity Metabolism

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Long-term treatment with sodium-glucose co-transporter-2 (SGLT2) inhibitors slows the deterioration of renal function in patients with diabetes. This benefit cannot be ascribed to an action on blood glucose, ketone utilization, uric acid or systolic blood pressure. SGLT2 inhibitors produce a striking amelioration of glomerular hyperfiltration. Although initially ascribed to an action of these drugs to inhibit proximal tubular glucose reabsorption, SGLT2 inhibitors exert renoprotective effects, even in patients with meaningfully impaired levels of glomerular function that are sufficient to abolish their glycosuric actions. Instead, the reduction in intraglomerular pressures may be related to an action of SGLT2 inhibitors to interfere with the activity of sodium-hydrogen exchanger isoform 3, thereby inhibiting proximal tubular sodium reabsorption and promoting tubuloglomerular feedback. Yet, experimentally, such an effect may not be sufficient to prevent renal injury. It is therefore noteworthy that the diabetic kidney exhibits an important defect in adenosine monophosphateactivated protein kinase (AMPK) and sirtuin-1 (SIRT1) signalling, which may contribute to the development of nephropathy. These transcription factors exert direct effects to mute oxidative stress and inflammation, and they also stimulate autophagy, a lysosomally mediated degradative pathway that maintains cellular homeostasis in the kidney. SGLT2 inhibitors induce both AMPK and SIRT1, and they have been shown to stimulate autophagy, thereby ameliorating cellular stress and glomerular and tubular injury. Enhanced AMPK/SIRT1 signalling may also contribute to the action of SGLT2 inhibitors to interfere with sodium transport mechanisms.The dual effects of SGLT2 inhibitors on AMPK/SIRT1 activation and renal tubular sodium transport may explain the protective effects of these drugs on the kidney in type 2 diabetes. K E Y W O R D Sautophagy, diabetic nephropathy, sirtuin-1, sodium-glucose co-transporter-2 inhibitor

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Section: Are Sglt2 Inhibitors Renoprotective Through An Action To Stimentioning

confidence: 99%

Interplay of adenosine monophosphate‐activated protein kinase/sirtuin‐1 activation and sodium influx inhibition mediates the renal benefits of sodium‐glucose co‐transporter‐2 inhibitors in type 2 diabetes: A novel conceptual framework

Packer

2020

Diabetes Obesity Metabolism

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“…In the CIN model, HIF-2α activation was determined, and in the CIN + NAC and the CIN + SIL models, this activation was decreased versus the CIN model. Kong et al [ 27 ] demonstrated late-phase renal tubular HIF-2α activation to be protective for renal fibrosis and renal dysfunction, and also demonstrated its use as a therapeutic agent in the late phase of chronic kidney disease.…”

Section: Discussionmentioning

confidence: 99%

Serum and Tissue HIF-2 Alpha Expression in CIN, N-Acetyl Cysteine, and Sildenafil-Treated Rat Models: An Experimental Study

et al. 2018

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Background and Objectives: Contrast-induced nephropathy (CIN), is acute renal damage due to contrast agents. This study is conducted to evaluate serum and renal heterodimeric nuclear transcription factor (HIF)-2 alpha levels and its tissue expression in contrast-induced nephropathy, and in N-acetyl cysteine (NAC)-and Sildenafil-treated rat models. Materials/Methods: This randomized, controlled, interventional animal study was conducted on Wistar rats. Rats (n = 36) were randomly assigned to four groups: control (n = 9), CIN group (n = 9), CIN + NAC group (n = 9), and sildenafil (n = 9). The rat model was used to form iohexol-originated CIN. During the modeling, prophylactic treatment was performed at the 24th and 48th h. After 48 h of modeling, blood, urine, and tissue samples were obtained for biochemical analyses. HIF-2-α levels were measured in renal tissue, serum, and urine samples. Renal sections were also performed for histopathologic and immunohistochemical evaluations of renal injury and HIF-2-α expression. Results: In the CIN model, HIF-2α levels and other biochemical parameters were significantly increased (p < 0.01). Both sildenafil and NAC efficiently decreased renal damage due to contrast agents, as shown in histopathologic examinations (p < 0.05). Similarly, after treatment with sildenafil and NAC, HIF-2α levels were significantly decreased (p < 0.05). Conclusions: The current study shows that serum and tissue HIF-2α levels decrease in CIN. Besides, the levels and tissue expression of HIF-2α decrease with both NAC and sildenafil treatments. With further studies, HIF-2α can be investigated as a biomarker of CIN and can be used in the follow-up of patients with CIN.

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“…In the early stages of CKD, the activation of HIF2α worsened the renal fibrosis but did not lead to renal functional impairment. [33] In another study, overexpression of HIF2α was sufficient to induce kidney fibrosis. [34] At later stages of CKD, HIF2α activation, in part, activated typical hypoxia-induced target genes of HIF1α such as VEGF, fibronectin, and type 1 collagen but restored the renal vasculature, and thereby ameliorated renal dysfunction and fibrosis.…”

Section: Hypertensive Renal Injury and Hifmentioning

confidence: 97%

Research progress in acute hypertensive renal injury by “in vivo cryotechnique”

Sun

Wang

et al. 2019

Journal of Translational Internal Medicine

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Arterial hypertension has a large prevalence in the general population and as a major hypertensive target organ, the involvement of kidney is usually hard to avoid and gradually develops into chronic kidney disease (CKD). Acute hypertension is defined as a blood pressure greater than 180/120, also known as hypertensive emergency (HE). In acute severe hypertension, the pathophysiology damage to the kidney tends to worsen on the basis of chronic damage, and accounts for more significant mortality. However, the mechanisms of renal injury induced by acute hypertension remain unclear. This review summarizes the clinical and histopathological features of hypertensive renal injury by using “in vivo cyrotechnique” and focusses on the interplay of distinct systemic signaling pathways, which drive glomerular podocyte injury. A thorough understanding of the cellular and molecular mechanisms of kidney damage and repair in hypertension will provide significant insight into the development of new research methods and therapeutic strategies for global CKD progression.

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Selective tubular activation of hypoxia-inducible factor-2α has dual effects on renal fibrosis

Cited by 31 publications

References 33 publications

Interplay of adenosine monophosphate‐activated protein kinase/sirtuin‐1 activation and sodium influx inhibition mediates the renal benefits of sodium‐glucose co‐transporter‐2 inhibitors in type 2 diabetes: A novel conceptual framework

Interplay of adenosine monophosphate‐activated protein kinase/sirtuin‐1 activation and sodium influx inhibition mediates the renal benefits of sodium‐glucose co‐transporter‐2 inhibitors in type 2 diabetes: A novel conceptual framework

Serum and Tissue HIF-2 Alpha Expression in CIN, N-Acetyl Cysteine, and Sildenafil-Treated Rat Models: An Experimental Study

Research progress in acute hypertensive renal injury by “in vivo cryotechnique”

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