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Research paves way for new kidney treatment, potential synthetic transplant options

Microscopic image of the cells in a kidney
3D renderings of post-natal kidneys showing the complex interstitial matrix structures.

 

  Meet Associate Professor Sarah Calve   Paul M. Rady Mechanical Engineering

A new lab at 欧美口爆视频 Boulder is exploring how the extracellular matrix 鈥 a network of proteins that surrounds cells and provides structural and mechanical cues in the body 鈥 specifically impacts kidney growth, development and function. 

Their work,  addresses several unknowns when it comes to the matrix, tissue engineering and the kidney.

The kidney removes waste and salt from the body and restores water balance. It also plays a part in hormone production, said PhD student Sarah Lipp, the first author on the paper.

鈥淭he extracellular matrix is critical for kidney formation and normal kidney function,鈥 she said. 鈥淵et how the matrix composition and structure change as the kidney develops was previously unknown. To address that in the publication, we looked at both those aspects as the kidney initially forms and matures using a mouse as a proxy for human development.鈥

Lipp is part of the Musculoskeletal Extracellular Matrix Lab under the direction of Associate Professor Sarah Calve. That team recently moved to the Paul M. Rady Department of Mechanical Engineering from Purdue University, where Lipp is still finishing her degree. While the work was started at Purdue, it was completed after the lab鈥檚 transition to 欧美口爆视频 Boulder. 

The research is part of ongoing efforts in tissue engineering, which combines cells, matrix and growth factors to replicate organ function. Doing so effectively would potentially reshape regenerative medicine and, in this case, increase the available kidney transplant pool by creating a synthetic option instead of donated organs.

Calve said her lab will continue this line of research at 欧美口爆视频 Boulder. The structure and composition described in the paper can be used as an initial guideline for tissue engineers studying the kidney.

鈥淥ur lab is primarily focused on understanding the extracellular matrix composition, structure and mechanics of the developing musculoskeletal system, so branching into the kidney has been a welcome challenge,鈥 she said. 鈥淭here is still plenty to explore and work on in this area as we observed interesting trends in the interstitial extracellular matrix, a fibrous network in between cells, and are now investigating what happens in a model of abnormal kidney development during the embryonic stage.鈥  

 was supported by the National Institutes of Health DP2 AT009833 to Dr. Calve. Sarah Lipp was supported in part by the National Institutes of Health, National Center for Advancing Translational Sciences, Clinical and Translational Sciences Award UL1TR002529 and TL1TR002531.