Abstract
Familial amyloidotic polyneuropathy (FAP) has a high prevalence in Portugal, and the most common form of hereditary amyloidosis is caused by an amyloidogenic variant of transthyretin (TTR) with a substitution of methionine for valine at position 30 (V30M). Until now, the available efficient therapy is liver transplantation, when performed in an early phase of the onset of the disease symptoms. However, transplanted FAP patients have a significantly higher incidence of early hepatic artery thrombosis compared with non-FAP transplanted patients. Because FAP was described as an independent risk factor for early hepatic artery thrombosis, more studies to understand the underlying mechanisms involved in this outcome are of the utmost importance. Knowing that the liver is the major site for TTR production, we investigated the biological effects of TTR proteins in the vasculature and on angiogenesis. In this study, we identified genes differentially expressed in endothelial cells exposed to the WT or V30M tetramer. We found that endothelial cells may acquire different molecular identities when exposed to these proteins, and consequently TTR could regulate angiogenesis. Moreover, we show that V30M decreases endothelial survival by inducing apoptosis, and it inhibits migration. These findings provide new knowledge that may have critical implications in the prevention of early hepatic artery thrombosis in FAP patients after liver transplantation.
Highlights
The biological effects of transthyretin proteins on vasculature remain unknown
Transplanted Familial amyloidotic polyneuropathy (FAP) patients have a significantly higher incidence of early hepatic artery thrombosis compared with non-FAP transplanted patients
Because we found that V30M tetrameric protein induces a decrease in IFTM1 expression, this could be related to an anti-angiogenic response that could be in agreement with our results that suggest that V30M inhibits endothelial cells (ECs) migration
Summary
The biological effects of transthyretin proteins on vasculature remain unknown. Results: V30M transthyretin tetramer modulates endothelial global gene expression, down-regulating pro-angiogenic genes, inducing apoptosis and inhibiting migration. We show that V30M decreases endothelial survival by inducing apoptosis, and it inhibits migration These findings provide new knowledge that may have critical implications in the prevention of early hepatic artery thrombosis in FAP patients after liver transplantation. Transthyretin Proteins Regulate Angiogenesis mechanism of amyloidosis cytotoxicity where amyloidogenic mutations in TTR destabilize the native structure into dimers and monomers that rapidly form oligomers and protofibrillar species which are the cytotoxic intermediates [9, 13, 14]. Our results suggest that V30M decreases EC survival by inducing apoptosis and it inhibits migration These new insights into the regulation of endothelial function by these proteins may have critical implications in the prevention of early hepatic artery thrombosis in FAP patients after liver transplantation
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