Hormones Stocks List

Related ETFs - A few ETFs which own one or more of the above listed Hormones stocks.

Hormones Stocks Recent News

Date Stock Title
Nov 21 NVO The FDA Can’t Decide Whether Zepbound Is in Shortage. It’s Good News for Hims & Hers Stock.
Nov 21 NVO Eli Lilly Stock Tumbles As Kennedy Targets Weight Loss Drugs
Nov 21 CORT 3 Reasons Growth Investors Will Love Corcept (CORT)
Nov 21 NVO Pfizer Secures Approval for Hemophilia Drug Hympavzi in the EU
Nov 21 TEVA Teva Pharmaceutical (TEVA): The Global Leader in Affordable Medicine Under $25
Nov 21 NVO Eli Lilly and 2 More Drug Stocks to Buy After RFK-Inspired Drop
Nov 20 NVO More companies covering weight loss drugs for their employees
Nov 20 NVO Weight loss drug makers want more insurance plans to cover Wegovy and Zepbound
Nov 20 CORT Wall Street Analysts Think Corcept (CORT) Could Surge 37.91%: Read This Before Placing a Bet
Nov 20 OPK OPKO Health to Participate in the Piper Sandler 36th Annual Healthcare Conference
Nov 20 NVO Is Novo Nordisk Stock a Buy Right Now?
Nov 20 NVO RFK Jr. Sparks New Worries About Obesity Drugs. Here’s What Investors Should Focus on Instead.
Nov 19 NVO Novo Nordisk semaglutide phase 3 trial for MASH meets primary endpoints
Nov 19 NVO Sector Update: Health Care Stocks Decline
Nov 19 NVO Novo Nordisk Unusual Options Activity For November 19
Nov 19 NVO Sector Update: Health Care Stocks Mixed Tuesday Afternoon
Nov 19 TEVA Teva Pharmaceutical Industries Limited (TEVA) Jefferies London Healthcare Conference (Transcript)
Nov 19 NVO Novo Erases 2024 Gain, Wiping Out $210 Billion in Value
Nov 19 NVO Market Chatter: Eli Lilly, Novo Nordisk Press Employers to Cover the Cost of Weight-Loss Drugs
Nov 19 PRGO Perrigo Company: Great Combination Of Future Growth With A Low Valuation
Hormones

A hormone (from the Greek participle “ὁρμῶ”, "to arouse") is any member of a class of signaling molecules produced by glands in multicellular organisms that are transported by the circulatory system to target distant organs to regulate physiology and behavior. Hormones have diverse chemical structures, mainly of three classes: eicosanoids, steroids, and amino acid/protein derivatives (amines, peptides, and proteins). The glands that secrete hormones comprise the endocrine signaling system. The term hormone is sometimes extended to include chemicals produced by cells that affect the same cell (autocrine or intracrine signalling) or nearby cells (paracrine signalling).
Hormones are used to communicate between organs and tissues for physiological regulation and behavioral activities, such as digestion, metabolism, respiration, tissue function, sensory perception, sleep, excretion, lactation, stress, growth and development, movement, reproduction, and mood. Hormones affect distant cells by binding to specific receptor proteins in the target cell resulting in a change in cell function. When a hormone binds to the receptor, it results in the activation of a signal transduction pathway that typically activates gene transcription resulting in increased expression of target proteins; non-genomic effects are more rapid, and can be synergistic with genomic effects. Amino acid–based hormones (amines and peptide or protein hormones) are water-soluble and act on the surface of target cells via second messengers; steroid hormones, being lipid-soluble, move through the plasma membranes of target cells (both cytoplasmic and nuclear) to act within their nuclei.
Hormone secretion may occur in many tissues. Endocrine glands are the cardinal example, but specialized cells in various other organs also secrete hormones. Hormone secretion occurs in response to specific biochemical signals from a wide range of regulatory systems. For instance, serum calcium concentration affects parathyroid hormone synthesis; blood sugar (serum glucose concentration) affects insulin synthesis; and because the outputs of the stomach and exocrine pancreas (the amounts of gastric juice and pancreatic juice) become the input of the small intestine, the small intestine secretes hormones to stimulate or inhibit the stomach and pancreas based on how busy it is. Regulation of hormone synthesis of gonadal hormones, adrenocortical hormones, and thyroid hormones is often dependent on complex sets of direct influence and feedback interactions involving the hypothalamic-pituitary-adrenal (HPA), -gonadal (HPG), and -thyroid (HPT) axes.
Upon secretion, certain hormones, including protein hormones and catecholamines, are water-soluble and are thus readily transported through the circulatory system. Other hormones, including steroid and thyroid hormones, are lipid-soluble; to allow for their widespread distribution, these hormones must bond to carrier plasma glycoproteins (e.g., thyroxine-binding globulin (TBG)) to form ligand-protein complexes. Some hormones are completely active when released into the bloodstream (as is the case for insulin and growth hormones), while others are prohormones that must be activated in specific cells through a series of activation steps that are commonly highly regulated. The endocrine system secretes hormones directly into the bloodstream, typically via fenestrated capillaries, whereas the exocrine system secretes its hormones indirectly using ducts. Hormones with paracrine function diffuse through the interstitial spaces to nearby target tissue.

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