Hormone receptor

A hormone receptor is a receptor molecule that binds to a specific hormone. Hormone receptors are a wide family of proteins made up of receptors for thyroid and steroid hormones, retinoids and Vitamin D, and a variety of other receptors for various ligands, such as fatty acids and prostaglandins. There are two main classes of hormone receptors. Receptors for peptide hormones tend to be cell surface receptors built into the plasma membrane of cells and are thus referred to as trans membrane receptors. An example of this is insulin. Receptors for steroid hormones are usually found within the cytoplasm and are referred to as intracellular or nuclear receptors, such as testosterone. Upon hormone binding, the receptor can initiate multiple signaling pathways which ultimately lead to changes in the behavior of the target cells.

Hormonal therapy and hormone receptors play a very large part in breast cancer treatment (therapy is not limited to only breast cancer). By influencing the hormones, the cells' growth can be changed along with its function. These hormones can cause cancer to not survive in the human body.

Hormone receptor proteins bind to a hormone as a result of an accumulation of weak interactions. Because of the relatively large size of enzymes and receptors, the large amount of surface area provides the basis for these weak interactions to occur. This binding is actually highly specific because of the complementarity of these interactions between polar, non-polar, charged, neutral, hydrophilic, or hydrophobic residues. Upon binding, the receptor often undergoes a conformational change and may bind further signaling ligands in order to activate a signaling pathway. Because of these highly specific and high affinity interactions between hormones and their receptors, very low concentrations of hormone are needed to produce significant cellular response. Receptors can have various different structures depending on the function of the hormone and the structure of its ligand. Therefore, hormone binding to its receptor is a complex process which can be mediated by cooperative binding, reversible and irreversible interactions, and multiple binding sites.

The presence of hormone or multiple hormones enables a response in the receptor which begins a cascade of signaling. The hormone receptor interacts with different molecules in order to induce a variety of changes, such as the increase or decrease of nutrient sources, growth, and other metabolic functions. These signaling pathways are complex mechanisms mediated by feedback loops where different signals activate and inhibit other signals. If a signaling pathway ends with the increase in production of a nutrient, that nutrient is then a signal back to the receptor that acts as a competitive inhibitor to prevent further production. Signaling pathways regulate cells through activating or inactivating gene expression, transport of metabolites, and controlling enzymatic activity in order to manage growth and functions of metabolism.

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