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Metabolic Reprogramming in Health and Disease
Full text linkThis editorial aims to summarize the six scientific papers that contributed to this Special Issue
The importance of stereochemistry on the actions of vitamin D.
No full textThe seco-steroid hormone 1α,25-dihydroxyvitamin D(3) [1α,25(OH)(2)D(3)] is the most potent natural metabolite of vitamin D(3) and regulates primarily calcium and phosphate homeostasis, but also as a regulator of specific differentiation and of the immune system. Most, if not all, of the biological actions of 1α,25(OH)(2)D(3) are mediated through its specific receptor, the vitamin D receptor (VDR), which is a member of the nuclear receptor superfamily acting as a ligand-dependent transcription factor with coactivators. 1α,25(OH)(2)D(3) has significant therapeutic potential in the treatment of osteoporosis, rickets, secondary hyperparathyroidism, psoriasis, and renal osteodystrophy. However, the use of 1α,25(OH)(2)D(3) itself is limited because it induces significant hypercalcemia. Vitamin D is a highly flexible molecule and a very large number of analogs have been synthesized by industry and academia in an attempt to provide beneficial therapeutic agents with low calcemic activity. Chemical modifications of every portion of the vitamin D(3) molecule (the A, C, and D rings, the 17β-aliphatic side chain, and the 5,6,7,8-diene moiety) have been reported, with the most of the interesting analogs resulting from a combination of several modifications. The three-dimensional structure of both rat and human VDR-LBD have provided significant information for our understanding of the structure-function relationship (SFR) of vitamin D and some synthetic analogs. In this review, we focus on the current understanding of the relationship between selected stereochemical modifications of key structural components (i.e. A-ring, CD-ring and Side-chain) of the 1α,25(OH)(2)D(3) molecule and their effect on biological potency and selectivity. Based on current information, suggestions for the structure-based design of therapeutically valuable vitamin D analogs will conclude the review
Cardiac effects of thyronamines
No full text3-Iodothyronamine (T(1)AM) is an endogenous compound derived from thyroid hormone through decarboxylation and deiodination, which interacts with a novel G protein-coupled receptor, known as trace amine-associated receptor 1 (TAAR1). TAAR1 and other receptors of this family are expressed in several tissues, including the heart. Functional effects have been observed after administration of exogenous T(1)AM: in the isolated heart, a negative inotropic and chronotropic action was produced, and the resistance to ischemic injury was increased, possibly as a consequence of an action on intracellular calcium homeostasis. Extracardiac effects include reduction of body temperature, increased lipid versus carbohydrate metabolism, and modulation of insulin secretion. T(1)AM might play an important physiological or pathophysiological role, and this signaling system might allow the development of new therapeutical agents
Synthetic analogues of 3-iodothyronamine (T1AM) and uses thereof.
No full textThe present invention generally refers to synthetic analogues of thyroid hormones. More specifically, the invention relates to synthetic analogues of 3-iodothyronamine. pharmaceutical compositions comprising at least one of the said synthetic analogues of 3- iodothyronamine as the active ingredient in combination with a pharmaceutically acceptable carrier and/or excipient, as well as medical uses of the said synthetic 3- iodothyronamine analogues
A-ring analogs of 1,25-dihydroxyvitamin D-3
No full textThe growing interest in1α,25(OH)(2)D(3), the hormonally active form of vitamin D(3), has prompted numerous efforts to synthesize vitamin D analogs as potential therapeutic agents, and some of these are already on the market and in clinical development. Although most vitamin D preparations developed thus far have focused on side-chain modifications, providing many useful analogues with high potency and selectivity, in recent years, modifications of the A-ring has attracted much attention because it can afford useful analogues exhibiting unique activity profiles as well. In this review we will focus on the current understanding of the relationship between selected modifications in the A-ring of the 1α,25(OH)(2)D(3) molecule, such as epimerization and/or substitution at C-1 and C-3, substitution at C-2, and removal of the 10,19-exocyclic methylene group, and their effect on biological potency and selectivity. Finally, suggestions for the structure-based design of therapeutically valuable A-ring vitamin D analogs will conclude the review
Improved synthesis of the iodine-free thyromimetic GC-1
No full textSynthesis of the TRbeta-selective thyromimetic GC-1 has been improved using methoxymethyl (MOM) and triisopropylsilyl (TiPS) substituents as phenolic protecting groups. The new synthetic route is adaptable to analogue design
Molecular mechanisms underlying thyroid hormone induced gene expression cascades during amphibian metamorphosis.
No full textThyroid hormone analogues and methods for their preparation
Full text linkThyroid hormone analogues are disclosed. Methods of using such analogues and pharmaceutical compositions containing them are also disclosed, as are novel procedures for their preparation
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