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Similar Biophysical Abnormalities in Glomeruli and Podocytes from Two Distinct Models.

Similar Biophysical Abnormalities in Glomeruli and Podocytes from Two Distinct Models.
Author Information (click to view)

Embry AE, Liu Z, Henderson JM, Byfield FJ, Liu L, Yoon J, Wu Z, Cruz K, Moradi S, Gillombardo CB, Hussain RZ, Doelger R, Stuve O, Chang AN, Janmey PA, Bruggeman LA, Miller RT,


Embry AE, Liu Z, Henderson JM, Byfield FJ, Liu L, Yoon J, Wu Z, Cruz K, Moradi S, Gillombardo CB, Hussain RZ, Doelger R, Stuve O, Chang AN, Janmey PA, Bruggeman LA, Miller RT, (click to view)

Embry AE, Liu Z, Henderson JM, Byfield FJ, Liu L, Yoon J, Wu Z, Cruz K, Moradi S, Gillombardo CB, Hussain RZ, Doelger R, Stuve O, Chang AN, Janmey PA, Bruggeman LA, Miller RT,

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Journal of the American Society of Nephrology : JASN 2018 03 23() pii 10.1681/ASN.2017050475

Abstract

FSGS is a pattern of podocyte injury that leads to loss of glomerular function. Podocytes support other podocytes and glomerular capillary structure, oppose hemodynamic forces, form the slit diaphragm, and have mechanical properties that permit these functions. However, the biophysical characteristics of glomeruli and podocytes in disease remain unclear.Using microindentation, atomic force microscopy, immunofluorescence microscopy, quantitative RT-PCR, and a three-dimensional collagen gel contraction assay, we studied the biophysical and structural properties of glomeruli and podocytes in chronic (Tg26 mice [HIV protein expression]) and acute (protamine administration [cytoskeletal rearrangement]) models of podocyte injury.Compared with wild-type glomeruli, Tg26 glomeruli became progressively more deformable with disease progression, despite increased collagen content. Tg26 podocytes had disordered cytoskeletons, markedly abnormal focal adhesions, and weaker adhesion; they failed to respond to mechanical signals and exerted minimal traction force in three-dimensional collagen gels. Protamine treatment had similar but milder effects on glomeruli and podocytes.Reduced structural integrity of Tg26 podocytes causes increased deformability of glomerular capillaries and limits the ability of capillaries to counter hemodynamic force, possibly leading to further podocyte injury. Loss of normal podocyte mechanical integrity could injure neighboring podocytes due to the absence of normal biophysical signals required for podocyte maintenance. The severe defects in podocyte mechanical behavior in the Tg26 model may explain why Tg26 glomeruli soften progressively, despite increased collagen deposition, and may be the basis for the rapid course of glomerular diseases associated with severe podocyte injury. In milder injury (protamine), similar processes occur but over a longer time.

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