Pablo R. Olmos , Valeska Vollrath , Verónica Irribarra
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Abstract
Retinopathy and nephropathy – current view
The Kumamoto and UKPDS studies of type-2 diabetes demonstrated that high glucose mean faster worsening for both diabetic retinopathy and nephropathy. However, why so many type-2 diabetics develop nephropathy but no retinopathy? Why so many type-2 diabetics have severe retinopathy and little or no nephropathy? The answer may be genetic susceptibility.
Hypothesis: the “flip-flop” effect of aldose reductase gene
When the CC genotype (high aldose reductase expression) of the (−106) polymorphism of the aldose reductase gene was linked to enhanced retinal susceptibility to hyperglycemia, it was expected that it would also accelerate nephropathy. As the case was the opposite, we now hypothesize that in the kidney, higher aldose reductase activity reduces susceptibility to hyperglycaemia by means of shifting glucose away from the synthesis of Transforming Growth Factor-Beta (TGF-β), a stimulator of mesangial expansion – the landmark of diabetic nephropathy. As the CT & TT genotypes (lower expression of aldose reductase) have effects that are the opposite of those of CC genotype, i.e. retinopathy-protection & nephropathy proneness, we have coined the term “flip-flop”, an acronym taken from electronics, meaning a system that is bi-stable.
If the “flip-flop” was confirmed – what then?
Those diabetics who are retinopathy-protected & nephropathy-prone (CT & TT), should not be given aldose reductase inhibitors (which could worsen nephropathy) but the new breed of TGF-β inhibitors. This might be a first step towards “genetic individualization of diabetes therapy”.
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