AI Article Synopsis
- Traditional models of kidney injury focus mainly on either glomeruli or tubules, but new research indicates that both areas interact and contribute to chronic kidney disease.
- Damage to glomeruli can lead to tubule injury by allowing harmful substances into the tubules, which can worsen kidney function over time.
- Conversely, injury in the tubules can also harm glomeruli, highlighting a two-way relationship that is crucial for understanding kidney disease and exploring treatment options.
Article Abstract
Models of kidney injury have classically concentrated on glomeruli as the primary site of injury leading to glomerulosclerosis or on tubules as the primary site of injury leading to tubulointerstitial fibrosis. However, current evidence on the mechanisms of progression of chronic kidney disease indicates that a complex interplay between glomeruli and tubules underlies progressive kidney injury. Primary glomerular injury can clearly lead to subsequent tubule injury. For example, damage to the glomerular filtration barrier can expose tubular cells to serum proteins, including complement and cytokines, that would not be present in physiological conditions and can promote the development of tubulointerstitial fibrosis and progressive decline in kidney function. In addition, although less well-studied, increasing evidence suggests that tubule injury, whether primary or secondary, can also promote glomerular damage. This feedback from the tubule to the glomerulus might be mediated by changes in the reabsorptive capacity of the tubule, which can affect the glomerular filtration rate, or by mediators released by injured proximal tubular cells that can induce damage in both podocytes and parietal epithelial cells. Examining the crosstalk between the various compartments of the kidney is important for understanding the mechanisms underlying kidney pathology and identifying potential therapeutic interventions.
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| http://dx.doi.org/10.1038/s41581-024-00907-0 | DOI Listing |
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