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Abstract
Transthyretin (TTR) is a thyroid hormone-binding protein which transports thyroxine from the bloodstream to the brain. The structural stability of TTR in tetrameric form is crucial for maintaining its original functions in blood or cerebrospinal fluid (CSF). The altered structure of TTR due to genetic mutations or its deposits due to aggregation could cause several deadly diseases such as cardiomyopathy and neuropathy in autonomic, motor, and sensory systems. The early diagnoses for hereditary amyloid TTR with cardiomyopathy (ATTR-CM) and wild-type amyloid TTR (ATTRwt) amyloidosis, which result from amyloid TTR (ATTR) deposition, are difficult to distinguish due to the close similarities of symptoms. Thus, many researchers investigated the role of ATTR as a biomarker, especially its potential for differential diagnosis due to its varying pathogenic involvement in hereditary ATTR-CM and ATTRwt amyloidosis. As a result, the detection of ATTR became valuable in the diagnosis and determination of the best course of treatment for ATTR amyloidoses. Assessing the extent of ATTR deposition and genetic analysis could help in determining disease progression, and thus survival rate could be improved following the determination of the appropriate course of treatment for the patient. Here, the perspectives of ATTR in various diseases were presented.
Highlights
Transthyretin (TTR) protein was discovered incidentally from cerebrospinal fluid (CSF) in 1942 and was called prealbumin based on its observed electrophoretic pattern [1]
ATTRv could be further classified into ATTRV30M amyloidosis (Portuguese-Swedish-Japanese type) or ATTRI84S amyloidosis (Indiana/Swiss or Maryland/German type)
The formation of amyloid deposits aggregated from ATTRwt can lead to ATTRwt amyloidosis
Summary
Transthyretin (TTR) protein was discovered incidentally from cerebrospinal fluid (CSF) in 1942 and was called prealbumin based on its observed electrophoretic pattern [1]. TTR is a carrier protein of thyroxine and retinol. The role of TTR as a carrier protein was revealed to involve the reduction of cytotoxicity by blocking the aggregation of other proteins in protein aggregation diseases [7]. The association of TTR rare genetic variants with Alzheimer’s disease (AD) was analyzed in a large cohort of Han Chinese. The effective concentrations of TTR were found to be 220–450 ng/mL in healthy adult men and 160–380 ng/mL in adult women [12]. These concentrations served as an indicator in nutritional analysis and became highly significant for obtaining nutritional follow-up data for patients as well as normal individuals
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