CKD-Induced Wingless/Integration1 Inhibitors and Phosphorus Cause the CKD–Mineral and Bone Disorder

Fang, Yifu; Ginsberg, Charles; Seifert, Michael E.; Agapova, Olga A.; Sugatani, Toshifumi; Register, Thomas C.; Freedman, Barry I.; Monier‐Faugere, Marie‐Claude; Malluche, Hartmut H.; Hruska, Keith A.

doi:10.1681/asn.2013080818

Cited by 149 publications

(191 citation statements)

References 73 publications

Supporting

Mentioning

180

Contrasting

Unclassified

Order By: Relevance

“…In these mice, partial nephrectomy not only increases Ca, Pi, and PTH but also further reduces osteoblast number, bone formation rate, and bone mass (13,16). Interestingly, these changes are associated with a dramatic, but transient, increase in the level of circulating Dkk1, which is apparently produced by regenerating renal tissue.…”

Section: Discussionmentioning

confidence: 98%

“…This diet has been shown to cause renal damage in ApoE-KO mice, as evidenced by macrophage infiltration and increased inflammatory cytokine expression (50). In contrast, LDL receptor-null mice fed a cholate-free HFD do not exhibit renal damage or increased serum Ca and PTH; however, this HFD in combination with partial nephrectomy causes a rise in both (16). Thus, hypercalcemia and hyperparathyroidism occur in HFD-fed murine models of atherosclerosis regardless of whether reduced renal function results from surgical or chemical (cholate) intervention, albeit the hypercalcemia appears more extreme in the latter.…”

Section: Discussionmentioning

confidence: 99%

“…The deleterious effects of oxLDL on bone are not caused solely by kidney damage, since bone loss due to a decrease in osteoblast number also occurs in cholate-free HFD-fed LDL receptor-null mice with intact renal function (16). In these mice, partial nephrectomy not only increases Ca, Pi, and PTH but also further reduces osteoblast number, bone formation rate, and bone mass (13,16).…”

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Skeletal inflammation and attenuation of Wnt signaling, Wnt ligand expression, and bone formation in atherosclerotic ApoE-null mice

Liu

Almeida

Weinstein

et al. 2016

American Journal of Physiology-Endocrinology and Metabolism

View full text Add to dashboard Cite

ApoE-null (ApoE-KO) mice fed a high-fat diet (HFD) develop atherosclerosis, due in part to activation of vascular inflammation by oxidized low-density lipoprotein. Since bone loss also occurs in these mice, we used them to investigate the impact of oxidized lipids on bone homeostasis and to search for underlying pathogenic pathways. Four-month-old female ApoE-KO mice fed a HFD for three months exhibited increased levels of oxidized lipids in bone, as well as decreased femoral and vertebral trabecular and cortical bone mass, compared with ApoE-KO mice on normal diet. Despite HFD-induced increase in expression of Alox15, a lipoxygenase that oxidizes LDL and promotes atherogenesis, global deletion of this gene failed to ameliorate the skeletal impact of HFD. Osteoblast number and function were dramatically reduced in trabecular and cortical bone of HFD-fed mice, whereas osteoclast number was modestly reduced only in trabecular bone, indicating that an imbalance in favor of osteoclasts was responsible for HFD-induced bone loss. These changes were associated with decreased osteoblast progenitors and increased monocyte/macrophages in the bone marrow as well as increased expression of IL-1␤, IL-6, and TNF. HFD also attenuated Wnt signaling as evidenced by reduced expression of Wnt target genes, and it decreased expression of pro-osteoblastogenic Wnt ligands. These results suggest that oxidized lipids decrease bone mass by increasing anti-osteoblastogenic inflammatory cytokines and decreasing pro-osteoblastogenic Wnt ligands.

show abstract

Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Skeletal inflammation and attenuation of Wnt signaling, Wnt ligand expression, and bone formation in atherosclerotic ApoE-null mice

Liu

Almeida

Weinstein

et al. 2016

American Journal of Physiology-Endocrinology and Metabolism

View full text Add to dashboard Cite

show abstract

“…Adicionalmente, inhibe la apoptosis de las células musculares lisas de los vasos sanguíneos (45) . En modelos animales de ERC los ratones CKD-2 mostraron incremento en la producción de inhibidores de Wnt (wingless/integration) como Dickkopf-1 (Dkk1) y esclerostina y disminución de Klotho soluble (46) . La vía Wnt canónica es una vía integrativa que tiene un rol importante en la formación ósea promoviendo la proliferación osteoblástica, la inducción de la osteoblastogénesis, la inhibición de la apoptosis osteocítica y osteoblástica y la atenuación de la osteoblastogénesis (46) .…”

Section: Ercunclassified

“…En modelos animales de ERC los ratones CKD-2 mostraron incremento en la producción de inhibidores de Wnt (wingless/integration) como Dickkopf-1 (Dkk1) y esclerostina y disminución de Klotho soluble (46) . La vía Wnt canónica es una vía integrativa que tiene un rol importante en la formación ósea promoviendo la proliferación osteoblástica, la inducción de la osteoblastogénesis, la inhibición de la apoptosis osteocítica y osteoblástica y la atenuación de la osteoblastogénesis (46) . Al neutralizar Dkk1 en el modelo de CKD-2 en ratones, a través de la administración de anticuerpos monoclonales, luego de daño renal, se estimulaba la tasa de formación ósea, se corregía la osteodistrofia y se prevenía la calcificación vascular.…”

Section: Ercunclassified

Metabolismo mineral óseo en pacientes con enfermedad renal crónica: revisión sobre su fisiopatología y morbimortalidad

Bernuy

Gonzáles

2015

Rev Peru Med Exp Salud Publica

View full text Add to dashboard Cite

RESUMENLa enfermedad mineral ósea (EMO) es un término amplio que incluye a las alteraciones séricas del calcio, fósforo, vitamina D, paratohormona, anormalidades en el crecimiento, mineralización ósea y/o a las calcificaciones extraesqueléticas que acompañan al paciente con enfermedad renal crónica (ERC). Está presente en casi la totalidad de pacientes en diálisis y con el trasplante renal puede no siempre mejorar. Se han identificado nuevos factores y hormonas; como klotho y factor de crecimiento de fibroblastos-23 (FGF-23) que interactúan con la vitamina D y con la paratohormona en el manejo renal del calcio y fósforo. Ciertos reportes indican que son marcadores precoces del desarrollo de EMO, incluso cuando la función renal está levemente disminuida y los niveles de paratohormona son normales. La EMO ha sido asociada con mayor mortalidad, principalmente por su vinculación con la calcificación vascular. Este proceso conlleva a un incremento de eventos cardiovasculares que constituyen la principal causa de morbimortalidad en pacientes con ERC, sobre todo aquellos que se encuentran en diálisis, independientemente de la modalidad que los pacientes sigan. La forma de presentación de la EMO puede ser de alto o bajo recambio. Aunque no está completamente definido qué es lo que determina que se exprese una en particular, se ha encontrado que la enfermedad de bajo recambio se relaciona con malnutrición, uso inadecuado de calcitriol y diálisis ineficiente. El conocimiento de la EMO es relevante por su asociación con las complicaciones mencionadas y porque constituye un parámetro para evaluar la terapia instalada. Palabras clave: Hormona paratiroidea; Deficiencia de vitamina B; Enfermedad renal crónica; Trastornos del metabolismo del calcio (fuente: DeCS BIREME). BONE MINERAL METABOLISM IN PATIENTS WITH CHRONIC KIDNEY DISEASE: REVIEW OF ITS PATHOPHYSIOLOGY AND MORBIMORTALITY ABSTRACTMineral Bone Disorder (MBD) is a broad term that includes abnormal serum calcium, phosphorus, vitamin D, parathyroid hormone, growth abnormalities, bone mineralization and/or extraskeletal calcifications in patients with chronic kidney disease (CKD ). It is present in almost all patients on dialysis and may not always improve with a kidney transplant. New factors and hormones have been identified, such as Klotho and fibroblast growth factor-23 (FGF-23) that interact with vitamin D and the parathyroid hormone in the renal management of calcium and phosphorus. Some reports indicate that they are early markers of the development of MBD, even when kidney function is slightly decreased and parathyroid hormone levels are normal. MBD has been associated with higher mortality, mainly because of its link with vascular calcification. This process leads to an increase in cardiovascular events which are the leading cause of morbidity and mortality in CKD patients, especially those who are on dialysis, regardless of the modality that the patients follow. The presentation of the BMD can be of high or low turnover. Although it is not completely defined wha...

show abstract

Pathophysiology of Chronic Kidney Disease Mineral Bone Disorder (CKD‐MBD)

Hruska¹,

Seifert²

2013

Primer on the Metabolic Bone Diseases and Disorders of Mineral Metabolism

Self Cite

View full text Add to dashboard Cite

Purpose of review-The causes of excess cardiovascular mortality associated with chronic kidney disease (CKD) have been attributed in part to the CKD-mineral bone disorder syndrome (CKD-MBD), wherein, novel cardiovascular risk factors have been identified. The causes of the CKD-MBD are not well known and they will be discussed in this review Recent findings-The discovery of WNT (portmanteau of wingless and int) inhibitors, especially Dickkopf 1 (Dkk1), produced during renal repair as participating in the pathogenesis of the vascular and skeletal components of the CKD-MBD implied that additional pathogenic factors are critical, and whose discovery lead to the finding that activin A is a second renal repair factor circulating in increased levels during CKD. Activin A derives from peritubular myofibroblasts of diseased kidneys, wherein it stimulates fibrosis, and decreases tubular klotho expression.The type 2 activin A receptor, ActRIIA, is induced by CKD in atherosclerotic aortas specifically in vascular smooth muscle cells (VSMC). Inhibition of ActRIIA signaling by a ligand trap inhibited CKD induced VSMC dedifferentiation, osteogenic transition and atherosclerotic calcification. Inhibition of ActRIIA signaling in the kidney decreased renal fibrosis and proteinuria.Summary-These studies demonstrate that circulating renal repair factors are causal of the CKD-MBD and CKD associated cardiovascular disease, and identify ActRIIA signaling as a therapeutic target in CKD that links progression of renal disease and vascular disease.

show abstract

CKD-Induced Wingless/Integration1 Inhibitors and Phosphorus Cause the CKD–Mineral and Bone Disorder

Cited by 149 publications

References 73 publications

Skeletal inflammation and attenuation of Wnt signaling, Wnt ligand expression, and bone formation in atherosclerotic ApoE-null mice

Skeletal inflammation and attenuation of Wnt signaling, Wnt ligand expression, and bone formation in atherosclerotic ApoE-null mice

Metabolismo mineral óseo en pacientes con enfermedad renal crónica: revisión sobre su fisiopatología y morbimortalidad

Pathophysiology of Chronic Kidney Disease Mineral Bone Disorder (CKD‐MBD)

Contact Info

Product

Resources

About