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The kidneys are intricate organs with millions of working units known as nephrons. Each nephron features two major structures: the renal corpuscle, which facilitates blood plasma filtration, and the renal tubule, which handles the glomerular filtrate. Blood supply is directly linked to the nephrons. The renal corpuscle consists of the glomerulus, a capillary network, and the Bowman's capsule, a double-walled epithelial structure that encases the glomerulus. The filtering of blood plasma...
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The homogenate obtained after cell lysis contains various membrane-bound organelles that can be further separated into pure fractions by subcellular fractionation. These isolates are used to study specific cellular components, analyze localized protein activity, and are even employed in diagnostics. Fractionation is typically achieved using centrifugation methods, the most common being density-gradient and differential centrifugation.
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Cell separation was first achieved in 1964 by S. H. Seal, who separated large tumor cells from the smaller blood cells using filtration. Two years later, Pohl and Hawk performed experiments on how cells respond differently to a nonuniform electric field based on the cell type. Such observations were the inception of cell separation methods, which allow isolating a single cell type from a heterogeneous sample.
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Related Experiment Video

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An Efficient Sieving Method to Isolate Intact Glomeruli from Adult Rat Kidney
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Lectin-mediated, time-efficient, and high-yield sorting of different morphologically intact nephron segments.

Jessica Roskosch1, Uyen Huynh-Do1, Stefan Rudloff2

  • 1Division of Nephrology and Hypertension, University of Bern and University Hospital Bern, Freiburgstrasse 15, CH-3010, Bern, Switzerland.

Pflugers Archiv : European Journal of Physiology
|December 13, 2023
PubMed
Summary
This summary is machine-generated.

Researchers developed a novel method using fluorescent lectins and flow sorting to quickly isolate pure kidney nephron segments. This technique preserves morphology and yields high amounts of protein and RNA for advanced renal research.

Keywords:
Flow sortingKidneyLectinsMicrodissection

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Area of Science:

  • Nephrology
  • Molecular Biology
  • Biotechnology

Background:

  • The kidney's nephrons are complex structures with distinct segments, crucial for filtration and reabsorption.
  • Conventional methods for isolating nephron segments are laborious, time-consuming, and yield limited material.
  • There is a need for efficient and high-yield techniques to obtain pure nephron segments for research.

Purpose of the Study:

  • To develop a novel, rapid, and cost-effective method for isolating multiple kidney nephron segments simultaneously.
  • To preserve the 3D morphology of isolated nephron segments for downstream analysis.
  • To enable high-purity isolation of nephron segments from mouse and human kidney samples.

Main Methods:

  • Combined low-cost fluorophore-conjugated lectins or agglutinins (Flaggs) with flow sorting.
  • Utilized specific Flaggs (SNA-Cy3, LTL-FITC, SBA-PB) for differential labeling of nephron segments.
  • Employed a 200-µm nozzle and 5 psi for sorting glomeruli, proximal convoluted tubules, and distal convoluted tubules.
  • Identified connecting tubules/collecting ducts via dual labeling and thick ascending limbs by lack of labeling.

Main Results:

  • Simultaneous separation of different nephron segments with preserved 3D morphology in under 3 hours.
  • Achieved high yields of protein (37-521 ng/s) and RNA (0.71-16.71 ng/s) per sorted segment.
  • Demonstrated high purity of sorted segments with a median enrichment of 96.1-fold for mRNA expression levels.

Conclusions:

  • The novel Flaggs and flow sorting method is simple, cost-effective, and widely applicable.
  • This technique provides high yields of pure, morphologically intact renal tubule materials.
  • The method has the potential to significantly advance nephron segment-specific research.