Substrate Stiffness Modulates Renal Progenitor Cell Properties via a ROCK-Mediated Mechanotransduction Mechanism

Melica, Maria Elena; Regina, Gilda La; Parri, Matteo; Peired, Anna Julie; Romagnani, Paola; Lasagni, Laura

doi:10.3390/cells8121561

Cited by 24 publications

(14 citation statements)

References 56 publications

(75 reference statements)

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“…This impact has been demonstrated with other proteins and polymers [34,46]. An increase in Young's modulus have been linked to positive effects such as cell proliferation and spreading, but also negative responses in particular apoptosis [47,48]. This fundamental also applies to decreased stiffness where studies have shown that there can be a positive influence such as increased focal adhesion properties and also some negatives with decreased cell motility [49,50].…”

Section: Discussionmentioning

confidence: 89%

Electrospinning Fabrication Methods to Incorporate Laminin in Polycaprolactone for Kidney Tissue Engineering

Baskapan

Callanan

2021

Tissue Eng Regen Med

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BACKGROUND: Today’s treatment options for renal diseases fall behind the need, as the number of patients has increased considerably over the last few decades. Tissue engineering (TE) is one avenue which may provide a new approach for renal disease treatment. This involves creating a niche where seeded cells can function in an intended way. One approach to TE is combining natural extracellular matrix proteins with synthetic polymers, which has been shown to have many positives, yet a little is understood in kidney. Herein, we investigate the incorporation of laminin into polycaprolactone electrospun scaffolds. METHOD: The scaffolds were enriched with laminin via either direct blending with polymer solution or in a form of emulsion with a surfactant. Renal epithelial cells (RC-124) were cultured on scaffolds up to 21 days. RESULTS: Mechanical characterization demonstrated that the addition of the protein changed Young’s modulus of polymeric fibres. Cell viability and DNA quantification tests revealed the capability of the scaffolds to maintain cell survival up to 3 weeks in culture. Gene expression analysis indicated healthy cells via three key markers. CONCLUSION: Our results show the importance of hybrid scaffolds for kidney tissue engineering.

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Section: Discussionmentioning

confidence: 89%

Electrospinning Fabrication Methods to Incorporate Laminin in Polycaprolactone for Kidney Tissue Engineering

Baskapan

Callanan

2021

Tissue Eng Regen Med

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“…The absence of APOL1 also promotes parietal epithelial cell quiescence; the microRNA miR-193a suppresses APOL1 translation 59 . Under conditions of mechanical stress 60 , impaired APOL1-miR-193a axis (for example, in those with the G1 or G2 genotype) 59 or persistent NOTCH expression 61 , activated parietal epithelial cells cannot properly differentiate into podocytes and contribute to the formation of hyperplastic lesions and fibrous lesions, including FSGS 58,62 , by synthesizing and releasing extracellular matrix 63 (FiG. 4).…”

Section: Oncotic Pressurementioning

confidence: 99%

Podocytopathies

Kopp

Anders

Suszták

et al. 2020

Nat Rev Dis Primers

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249

219

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Podocytopathies are kidney diseases in which direct or indirect podocyte injury drives proteinuria or nephrotic syndrome. In children and young adults, genetic variants in >50 podocyte-expressed genes, syndromal non-podocyte-specific genes and phenocopies with other underlying genetic abnormalities cause podocytopathies associated with steroid-resistant nephrotic syndrome or severe proteinuria. A variety of genetic variants likely contribute to disease development. Among genes with non-Mendelian inheritance, variants in APOL1 have the largest effect size. In addition to genetic variants, environmental triggers such as immune-related, infection-related, toxic and haemodynamic factors and obesity are also important causes of podocyte injury and frequently combine to cause various degrees of proteinuria in children and adults. Typical manifestations on kidney biopsy are minimal change lesions and focal segmental glomerulosclerosis lesions. Standard treatment for primary podocytopathies manifesting with focal segmental glomerulosclerosis lesions includes glucocorticoids and other immunosuppressive drugs; individuals not responding with a resolution of proteinuria have a poor renal prognosis. Renin-angiotensin system antagonists help to control proteinuria and slow the progression of fibrosis. Symptomatic management may include the use of diuretics, statins, infection prophylaxis and anticoagulation. This Primer discusses a shift in paradigm from patient stratification based on kidney biopsy findings towards personalized management based on clinical, morphological and genetic data as well as pathophysiological understanding.

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“…However, it was rapidly recognized that substratum stiffness strongly influenced the outcome of cell receptor interaction with bound ligands [ 15 , 16 ]. Thus, when renal cells were deposited on collagen-coated hydrogels with an elastic modulus 2 ranging between 0.2 kPa and 50 kPa, cell proliferation rate increased proportionally to the substrate stiffness [ 17 ]. However, tendon-derived stem cells deposited on gelatin hydrogels with a stiffness ranging between about 2 kPa and 25 kPa displayed more active growth on softer surfaces [ 18 ].…”

Section: Cell Behaviour Is Strongly Influenced By Mechanical Parametersmentioning

confidence: 99%

Mechanotransduction as a major driver of cell behaviour: mechanisms, and relevance to cell organization and future research

Puech

Bongrand

2021

Open Biol.

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How do cells process environmental cues to make decisions? This simple question is still generating much experimental and theoretical work, at the border of physics, chemistry and biology, with strong implications in medicine. The purpose of mechanobiology is to understand how biochemical and physical cues are turned into signals through mechanotransduction. Here, we review recent evidence showing that (i) mechanotransduction plays a major role in triggering signalling cascades following cell–neighbourhood interaction; (ii) the cell capacity to continually generate forces, and biomolecule properties to undergo conformational changes in response to piconewton forces, provide a molecular basis for understanding mechanotransduction; and (iii) mechanotransduction shapes the guidance cues retrieved by living cells and the information flow they generate. This includes the temporal and spatial properties of intracellular signalling cascades. In conclusion, it is suggested that the described concepts may provide guidelines to define experimentally accessible parameters to describe cell structure and dynamics, as a prerequisite to take advantage of recent progress in high-throughput data gathering, computer simulation and artificial intelligence, in order to build a workable, hopefully predictive, account of cell signalling networks.

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Substrate Stiffness Modulates Renal Progenitor Cell Properties via a ROCK-Mediated Mechanotransduction Mechanism

Cited by 24 publications

References 56 publications

Electrospinning Fabrication Methods to Incorporate Laminin in Polycaprolactone for Kidney Tissue Engineering

Electrospinning Fabrication Methods to Incorporate Laminin in Polycaprolactone for Kidney Tissue Engineering

Podocytopathies

Mechanotransduction as a major driver of cell behaviour: mechanisms, and relevance to cell organization and future research

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