Abstract
The transcription factor Twist1 regulates several processes that could impact kidney disease progression, including epithelial cell differentiation and inflammatory cytokine induction. Podocytes are specialized epithelia that exhibit features of immune cells and could therefore mediate unique effects of Twist1 on glomerular disease. To study Twist1 functions in podocytes during proteinuric kidney disease, we employed a conditional mutant mouse in which Twist1 was selectively ablated in podocytes (Twist1-PKO). Deletion of Twist1 in podocytes augmented proteinuria, podocyte injury, and foot process effacement in glomerular injury models. Twist1 in podocytes constrained renal accumulation of monocytes/macrophages and glomerular expression of CCL2 and the macrophage cytokine TNF-α after injury. Deletion of TNF-α selectively from podocytes had no impact on the progression of proteinuric nephropathy. By contrast, the inhibition of CCL2 abrogated the exaggeration in proteinuria and podocyte injury accruing from podocyte Twist1 deletion. Collectively, Twist1 in podocytes mitigated urine albumin excretion and podocyte injury in proteinuric kidney diseases by limiting CCL2 induction that drove monocyte/macrophage infiltration into injured glomeruli. Myeloid cells, rather than podocytes, further promoted podocyte injury and glomerular disease by secreting TNF-α. These data highlight the capacity of Twist1 in the podocyte to mitigate glomerular injury by curtailing the local myeloid immune response.
Highlights
Glomerular damage accruing from diverse causes, including diabetes, focal segmental glomerulosclerosis (FSGS), and membranous nephropathy, instigate chronic kidney disease that can progress to end-stage kidney failure [1,2,3,4]
IHC staining of these biopsies revealed induction of Twist1 in glomerular podocytes during FSGS, IgA nephropathy, and diabetic nephropathy (DN) compared with controls (Figure 1A)
Because the podocyte is a primary target of injury during glomerular disease and exhibits features of both epithelial and immune cell lineages, we explored the impact of Twist1 in podocytes on glomerular damage after immune-mediated or toxic insult
Summary
Glomerular damage accruing from diverse causes, including diabetes, focal segmental glomerulosclerosis (FSGS), and membranous nephropathy, instigate chronic kidney disease that can progress to end-stage kidney failure [1,2,3,4]. The pathogenesis of glomerular disease is complex, featuring podocyte injury, a local inflammatory response, and microvascular dysfunction [5, 6]. Podocytes are a primary target of injury in a wide range of glomerular diseases marked by consequent albuminuria [7]. Renal inflammation is prevalent in proteinuric kidney disease and can trigger or exacerbate podocyte injury [8, 9]. Podocytes exhibit characteristic features of immune cells and express components of the innate and adaptive immune cascades that are critical to the inflammatory response in the glomerulus [10,11,12]. Elucidating the regulation of immune elements in podocytes should facilitate the development of therapeutic approaches for proteinuric kidney disease
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
