VEGF and Podocytes in Diabetic Nephropathy

Tufró, Alda; Verón, Delma

doi:10.1016/j.semnephrol.2012.06.010

Cited by 129 publications

(126 citation statements)

References 120 publications

(160 reference statements)

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“…Together with angiopoietins, these are important promoters of mobilization and homing of cell progenitors, 28 which are crucial steps to achieve angiogenesis that have been shown to be stimulated by VEGF. 29 In addition to the protective effects on the renal MV architecture, intrarenal ELP-VEGF therapy improved glomerular expression of podocin, reduced the excretion of nephrin (both major podocyte slit diaphragm-associated proteins 30,31 ), and reduced albuminuria, implying a reduction in podocyte damage. Since podocytes are both targets and sources of VEGF in the kidney, [32][33][34] ELP-VEGF administration may have in turn stimulated a positive feedback mechanism that could have potentiated podocyte production of VEGF and contributed to renoprotection.…”

Section: Discussionmentioning

confidence: 99%

Renal Therapeutic Angiogenesis Using a Bioengineered Polymer-Stabilized Vascular Endothelial Growth Factor Construct

Chade¹,

Tullos²,

Harvey³

et al. 2015

JASN

104

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Renovascular disease (RVD) induces renal microvascular (MV) rarefaction that drives progressive kidney injury. In previous studies, we showed that renal vascular endothelial growth factor (VEGF) therapy attenuated MV damage, but did not resolve renal injury at practical clinical doses. To increase the bioavailability of VEGF, we developed a biopolymer-stabilized elastin-like polypeptide (ELP)-VEGF fusion protein and determined its in vivo potential for therapeutic renal angiogenesis in RVD using an established swine model of chronic RVD. We measured single-kidney blood flow (RBF) and GFR and established the degree of renal damage after 6 weeks of RVD. Pigs then received a single stenotic kidney infusion of ELP-VEGF (100 mg/kg), a matching concentration of unconjugated VEGF (18.65 mg/kg), ELP alone (100 mg/kg), or placebo. Analysis of organ distribution showed high renal binding of ELP-VEGF 4 hours after stenotic kidney infusion. Therapeutic efficacy was determined 4 weeks after infusion. ELP-VEGF therapy improved renal protein expression attenuated in RVD, restoring expression levels of VEGF, VEGF receptor Flk-1, and downstream angiogenic mediators, including phosphorylated Akt and angiopoietin-1 and -2. This effect was accompanied by restored MV density, attenuated fibrogenic activity, and improvements in RBF and GFR greater than those observed with placebo, ELP alone, or unconjugated VEGF. In summary, we demonstrated the feasibility of a novel therapy to curtail renal injury. Recovery of the stenotic kidney in RVD after ELP-VEGF therapy may be driven by restoration of renal angiogenic signaling and attenuated fibrogenic activity, which ameliorates MV rarefaction and improves renal function. 27: 174127: -175227: , 201627: . doi: 10.1681 Renal vascular disease (RVD), usually caused by renal artery stenosis, can lead to CKD and ESRD. RVD increases cardiovascular morbidity and mortality, hospitalization, shortens life expectancy, and is increasing at a sustained pace in the United States. 1 Moreover, renal function does not improve or even deteriorates in almost half of the patients with RVD despite treatment. Recent clinical studies suggest that patients undergoing current therapeutic strategies, which include drugs and renal angioplasty, do not show differences in outcomes that could demonstrate distinct benefits of one treatment over the other when compared side by side. 2,3 Moreover, renal function does not improve or even deteriorates in almost half of patients with RVD despite treatment, highlighting a pressing need for novel therapeutic strategies for the growing population of patients suffering from RVD. J Am Soc NephrolUsing a clinically relevant swine model of chronic RVD that mimics several of the pathologic features

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Section: Discussionmentioning

confidence: 99%

Renal Therapeutic Angiogenesis Using a Bioengineered Polymer-Stabilized Vascular Endothelial Growth Factor Construct

Chade¹,

Tullos²,

Harvey³

et al. 2015

JASN

104

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“…Так, было показано, что под воздействием гипергликемии снижалась экспрессия miR-93 в подоцитах и эндотелиальных клетках почечных сосудов в клубочках мышей db/db [44]. Это приводило к стимуляции мишени miR-93 -сосудистого эндотели-ального фактора роста А (VEGF-A) -основного регуля-тора ангиогенеза и фактора выживаемости подоцитов, которому придается большое значение в развитии сосу-дистых осложнений и МАУ/ПУ при СД [45].…”

Section: сахарный диабет Diabetes Mellitusunclassified

New insights on microRNAs in diabetic nephropathy: potential biomarkers for diagnosis and therapeutic targets

Сергеевна²,

Bobkova

et al. 2017

Diabetes mellitus

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Вопросы патогенезаPathogenesis ахарный диабет (СД) -одна из серьезных ме-дико-социальных и экономических проблем современного здравоохранения. Наиболее опасные последствия глобальной эпидемии СД связаны с его сосудистыми осложнениями, в частности с диа-бетической нефропатией (ДН), которая является при-чиной хронической почечной недостаточности (ХПН), высокого сердечно-сосудистого риска, инвалидизации и смертности больных [1]. В этой связи раннее выявле-ние больных СД, предрасположенных к развитию ДН, может служить важным шагом к более эффективным профилактическим и лечебным мероприятиям с целью предотвращения наступления неблагоприятных исходов.Единственным используемым до настоящего вре-мени в рутинной практике методом ранней диагностики ДН является определение микроальбуминурии (МАУ). В современных экспериментальных и клинических ис-следованиях доказана взаимосвязь между альбумину-рией и выраженностью морфологических изменений в почках, однако начальные структурные признаки ДН появляются при еще нормальной экскреции альбумина с мочой, а повышение экскреции альбумина выше нормы

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“…7,17,41,42 Diabetic eNOS KO mice 26,35 and diabetic VEGF 164 gain-of-function mice 6 share similar diabetic milieu and nephropathy pathogenic mechanism (i.e., increased glomerular VEGF-A and eNOS insufficiency), resulting in advanced disease phenotype (i.e., Kimmelstiel-Wilson-like nodular glomerulosclerosis and severe proteinuria). Conversely, nondiabetic mice with intact eNOS and VEGF 164 gain of function develop a phenotype similar to early diabetic nephropathy.…”

Section: Discussionmentioning

confidence: 99%

“…[1][2][3][4] Glomerular VEGF-A plays a critical role in the pathogenesis of diabetic nephropathy. [5][6][7] Transgenic mice with podocyte VEGF 164 gain of function develop a glomerular phenotype indistinguishable from early diabetic nephropathy, in the context of normal blood glucose and normal systemic VEGF-A. 5 In the setting of type 1 diabetes, plasma VEGF-A increases but nodular glomerulosclerosis develops only in mice with podocyte VEGF 164 gain of function, demonstrating that local rather than systemic VEGF excess is critical for the progression of diabetic glomerulopathy to advanced disease.…”

Section: Vascular Glomerular Endothelial Factor-a (Vegf-a)mentioning

confidence: 99%

“…[16][17][18][19][20][21] In diabetes, low NO bioavailability is associated with high VEGF-A levels. 7,8,[22][23][24][25] Nakagawa et al called this process "uncoupling of VEGF to NO," connecting mechanistically the advanced nephropathy with the relationship between VEGF and NO in the kidney. 26 Experimental diabetes induced in eNOS knockout (KO) mice resulted in severe diabetic nephropathy: nodular glomerulosclerosis, decreased GFR, and hypertension, associated with increased VEGF mRNA renal expression.…”

Section: Vascular Glomerular Endothelial Factor-a (Vegf-a)mentioning

confidence: 99%

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Podocyte-Specific VEGF-A Gain of Function Induces Nodular Glomerulosclerosis in eNOS Null Mice

Verón

Aggarwal

Velázquez³

et al. 2014

Journal of the American Society of Nephrology

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VEGF-A and nitric oxide are essential for glomerular filtration barrier homeostasis and are dysregulated in diabetic nephropathy. Here, we examined the effect of excess podocyte VEGF-A on the renal phenotype of endothelial nitric oxide synthase (eNOS) knockout mice. Podocyte-specific VEGF 164 gain of function in eNOS 2/2 mice resulted in nodular glomerulosclerosis, mesangiolysis, microaneurysms, and arteriolar hyalinosis associated with massive proteinuria and renal failure in the absence of diabetic milieu or hypertension. In contrast, podocyte-specific VEGF 164 gain of function in wild-type mice resulted in less pronounced albuminuria and increased creatinine clearance. Transmission electron microscopy revealed glomerular basement membrane thickening and podocyte effacement in eNOS 2/2 mice with podocytespecific VEGF 164 gain of function. Furthermore, glomerular nodules overexpressed collagen IV and laminin extensively. Biotin-switch and proximity ligation assays demonstrated that podocyte-specific VEGF 164 gain of function decreased glomerular S-nitrosylation of laminin in eNOS 2/2 mice. In addition, treatment with VEGF-A decreased S-nitrosylated laminin in cultured podocytes. Collectively, these data indicate that excess glomerular VEGF-A and eNOS deficiency is necessary and sufficient to induce Kimmelstiel-Wilsonlike nodular glomerulosclerosis in mice through a process that involves deposition of laminin and collagen IV and de-nitrosylation of laminin.

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VEGF and Podocytes in Diabetic Nephropathy

Cited by 129 publications

References 120 publications

Renal Therapeutic Angiogenesis Using a Bioengineered Polymer-Stabilized Vascular Endothelial Growth Factor Construct

Renal Therapeutic Angiogenesis Using a Bioengineered Polymer-Stabilized Vascular Endothelial Growth Factor Construct

New insights on microRNAs in diabetic nephropathy: potential biomarkers for diagnosis and therapeutic targets

Podocyte-Specific VEGF-A Gain of Function Induces Nodular Glomerulosclerosis in eNOS Null Mice

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