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2016 ; 594
(12
): 3353-70
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Lysosomal cystine accumulation promotes mitochondrial depolarization and
induction of redox-sensitive genes in human kidney proximal tubular cells
#MMPMID26915455
Sumayao R
; McEvoy B
; Newsholme P
; McMorrow T
J Physiol
2016[Jun]; 594
(12
): 3353-70
PMID26915455
show ga
KEY POINTS: Cystine is a disulphide amino acid that is normally generated in the
lysosomes by the breakdown of cystine-containing proteins. Previously, we
demonstrated that lysosomal cystine accumulation in kidney proximal tubular
epithelial cells (PTECs) dramatically reduced glutathione (GSH) levels, which may
result in the disruption of cellular redox balance. In the present study, we show
that lysosomal cystine accumulation following CTNS gene silencing in kidney PTECs
resulted in elevated intracellular reactive oxygen species production, reduced
antioxidant capacity, induction of redox-sensitive proteins, altered
mitochondrial integrity and augmented cell death. These alterations may represent
different facets of a unique cascade leading to tubular dysfunction initiated by
lysosomal cystine accumulation and may present a clear disadvantage for
cystinotic PTECs in vivo. Cystine depletion by cysteamine afforded cytoprotection
in CTNS knockdown cells by reducing oxidative stress, normalizing intracellular
GSH and ATP content, and preserving cell viability. ABSTRACT: Cystine is a
disulphide amino acid that is normally generated within the lysosomes through
lysosomal-based protein degradation and via extracellular uptake of free cystine.
In the autosomal recessive disorder, cystinosis, a defect in the CTNS gene
results in excessive lysosomal accumulation of cystine, with early kidney failure
a hallmark of the disease. Previously, we demonstrated that silencing of the CTNS
gene in kidney proximal tubular epithelial cells (PTECs) resulted in an increase
in intracellular cystine concentration coupled with a dramatic reduction in the
total GSH content. Because of the crucial role of GSH in maintaining the redox
status and viability of kidney PTECs, we assessed the effects of CTNS
knockdown-induced lysosomal cystine accumulation on intracellular reactive oxygen
species (ROS) production, activity of classical redox-sensitive genes,
mitochondrial integrity and cell viability. Our results showed that lysosomal
cystine accumulation increased ROS production and solicitation to oxidative
stress (OS). This was associated with the induction of classical redox-sensitive
proteins, NF-?B, NRF2, HSP32 and HSP70. Cystine-loaded PTECs also displayed
depolarized mitochondria, reduced ATP content and augmented apoptosis. Treatment
of CTNS knockdown PTECs with the cystine-depleting agent cysteamine resulted in
the normalization of OS index, increased GSH and ATP content, and preservation of
cell viability. Taken together, the alterations observed in cystinotic cells may
represent different facets of a cascade leading to tubular dysfunction and, in
combination with cysteamine therapy, may offer a novel link for the attenuation
of renal injury and preservation of functions of other organs affected in
cystinosis.
|Adenosine Triphosphate/metabolism
[MESH]
|Amino Acid Transport Systems, Neutral/*genetics
[MESH]
free
free
free
