Hormone-Binding Proteins

Drugs can affect thyroid function in a number of ways.41 Effects of drugs on thyroid hormone protein binding, LT4 absorption, and metabolism have been discussed previously. Several commonly used medications can alter thyroid hormone secretion. 

Cody, V., and Murray-Rust, P. Iodine- X(0, N, S) intermolecular contacts models of thyroid hormone-protein binding interactions using information from the Cambridge Crystallographic Data Files. J. Molec. Struct. 112, 189-199... 

Hage, D.S. and Austin, J., High-performance affinity chromatography and immobilized serum albumin as probes for drug- and hormone-protein binding, J. Chromatogr. B, 739, 39, 2000. 

Involved in heat-shock response Pr otein binds glucocorticoid hormones Protein binds tlryroid homuxies... 

More subtle modes of action are also possible since the response to hormone receptor binding is complex and could be affected by chemical interference with receptor-related proteins, DNA methylation or histone acetylation. Dioxin (TCDD), for example, reduces the ability of the oestrogen-receptor complex to bind to the oestrogen response element of DNA, reducing gene transcription. ... 

FIGURE 15.21 Hormone (H) binding to its receptor (R) creates a hormone receptor complex (H R) that catalyzes GDP-GTP exchange on the o -subunit of the heterotrimer G protein (G ), replacing GDP with GTP. The G -subunit with GTP bound dissociates from the /37-subunits and binds to adenylyl cyclase (AC). AC becomes active upon association with G GTP and catalyzes the formation of cAMP from ATP. With time, the intrinsic GTPase activity of the G -subunit hydrolyzes the bound GTP, forming GDP this leads to dissociation of G GDP from AC, reassociation of G with the /Sy subunits, and cessation of AC activity. AC and the hormone receptor H are integral plasma membrane proteins G and G are membrane-anchored proteins. 

In vivo studies in animals suggest that endosulfan may disrupt normal reproductive hormone levels in male animals, but that it is not an endocrine disrupter in females. Persistent depressed testicular testosterone was seen in male rats after intermediate duration oral exposures to endosulfan. In ovariectomized female rats, orally administered endosulfan did not induce normal development of female reproductive tissues, and in female mice and immature female rats, acute parenteral exposure to endosulfan did not affect several endocrine-related end points. In vitro studies have evaluated endosulfan for estrogen receptor (ER) and cytosolic protein binding affinity, ER-mediated reporter gene expression, estrogenic induction of cell proliferation, and alteration of relative abundance of active estradiol metabolites. Overall, in vitro evidence in favor of endosulfan estrogenicity indicates relatively weak potency compared to 17[3-estradiol. Apparently contradictory results were reported in different... 

Class II hormones, which bind to cell surface receptors, generate a variety of intracellular signals. These include cAMP, cGMP, Ca +, phosphatidylinositides, and protein kinase cascades. 

Hemopexin (binds heme) Retinol-binding protein (binds retinol) Sex hormone-binding globulin (binds testosterone, estradiol) Thyroid-binding globulin (binds T4, T3) Transferrin (transport iron)... 

More than 99% of total body calcium is found in bone the remaining less than 1% is in the ECF and ICE Calcium plays a critical role in the transmission of nerve impulses, skeletal muscle contraction, myocardial contractions, maintenance of normal cellular permeability, and the formation of bones and teeth. There is a reciprocal relationship between the serum calcium concentration (normally 8.6 to 10.2 mg/dL [2.15 to 2.55 mmol/L]) and the serum phosphate concentration that is regulated by a complex interaction between parathyroid hormone, vitamin D, and calcitonin. About one-half of the serum calcium is bound to plasma proteins the other half is free ionized calcium. Given that the serum calcium has significant protein binding, the serum calcium concentration must be corrected in patients who have low albumin concentrations (the major serum protein). The most commonly used formula adds 0.8 mg/dL (0.2 mmol/L) of calcium for each gram of albumin deficiency as follows ... 

Steroid and thyroid hormones are minimally soluble in the blood. Binding to plasma proteins renders them water soluble and facilitates their transport. Protein binding also prolongs the circulating half-life of these hormones. Because they are lipid soluble, they cross cell membranes easily. As the blood flows through the kidney, these hormones would enter cells or be... 

The most common second messenger activated by protein/peptide hormones and catecholamines is cyclic adenosine monophosphate (cAMP). The pathway by which cAMP is formed and alters cellular function is illustrated in Figure 10.1. The process begins when the hormone binds to its receptor. These receptors are quite large and span the plasma membrane. On the cytoplasmic surface of the membrane, the receptor is associated with a G protein that serves as the transducer molecule. In other words, the G protein acts as an intermediary between the receptor and the second messengers that will alter cellular activity. These proteins are referred to as G proteins because they bind with guanosine nucleotides. In an unstimulated cell, the inactive G protein binds guanosine diphosphate (GDP). When the hormone... 

As summarized in Figure 52-3, steroid/thyroid hormone receptors bind to other proteins as well as to DNA [7-9]. 

Once formed, 1,25-DHCC acts on duodenal epithelial cells as a lipid-soluble hormone. Its intracellular receptor (a Zn-finger protein) binds to response elements in enhancer regions of DNA to induce the synthesis of calcium-binding proteins thought to play a role in stimulating calcium uptake from the GI tract. 

Although pheromones can be considered as a special form of odorants (scents), their actions, effects and functions have similarities to those of hormones. They bind to a specific receptor which then activates an effector system, which initiates an action potential. They bind to specific sensory cells, the neurones, in the olfactory epithelium, which is located on the roof of the nasal cavities. The epithelium consists of three types of cells, basal, supporting and sensory cells (neurones). The neurones are bipolar, that is they possess a single dendrite, which extends from the cell body to the surface of the olfactory epithelium, and an axon that forms a synapse with a nerve that transfers information to the olfactory centre in the brain. The epithelium is covered with a thick layer of mucus, in which the pheromones dissolve. The mucus contains proteins that bind the pheromone(s) for delivery to the olfactory receptors and then to remove them once they have been detected. 

Figure 7.4 The effect of bile acids on energy expenditure. Circulating bile acids bind to the G-protein-coupled receptor, TGR5 that stimulates increased cAMP-PKA activation and increased expression of type-2 iodothyronine deiodinase (D2). This response is sensitised by a high-fat diet. D2 converts thyroxine (T4) to active 3,5,3 -tri-iodothyronine (T3). T3 stimulates thyroid hormone receptor binding to target genes. This leads to altered expression of genes associated with energy balance, and increased energy expenditure.

Hormone Ratio in thyrogiobulin Biologic potency Half-life (days) Protein binding (% ... 

Figure 8.13. Growth hormone found in the circulation is generally bound to GH-binding proteins. Binding to the cell surface receptor promotes receptor dimerization and phosphorylation and hence activation. This leads to the phosphorylation of various cystolic protein substrates, which mediate intracellular effects of the hormone...

Mechanism of Action A thioimidazole derivative that inhibits synthesis of thyroid hormone by interfering with the incorporation of iodine into tyrosyl residues. Thera-peuticEffect Effectively treats hyperthyroidism by decreasingthyroid hormone levels. Pharmacohinetics Rapid absorption following PO administration. Protein binding Not significant. Widely distributed throughout the body. Metabolized in liver. Excreted in urine. Half-life 5-6 hr. 

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