Talk:Hormone

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rated top as high school/SAT biology content - tameeria 14:39, 17 February 2007 (UTC)

This article has no references. Also, chemical messenger redirects here, which is not entirely correct as chemical messengers can be different from hormones (e.g. second messengers, pheromones). - tameeria 18:23, 18 February 2007 (UTC)
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This article has been tagged since August 2006.


Contents

[edit] Vandalism

I just noticed a line at the bottom that says 'make me happy, sex me now' I looked for it, but was unable to locate it in the source. If someone could please remove it, that would be great. Thanks!

[edit] Discussion

Nice section. I am expanding and making a couple of tweaks. Current medical usage of growth hormone is not "human growth hormone/HGH", but I put an explanatory note in the growth hormone article. I moved the Orexin reference from "see also" (why not all the other hormones) to the list of hormones. alteripse 10 apr 04

is the definition a bit loose or is it just me? as is it would include neurotransmitter and all the autacoids! is that correct? Erich 08:34, 19 May 2004 (UTC)

There is a grey area between hormones and neurotransmitters. Think adrenalin. Think about all those peptide hormones that affect neurotransmission. Also, many are paracrine mediators that hardly fit in the hormone concept (eicosanoids are degraded before they can exert influence on other organs). This page should probably be phrased rather broadly. Perhaps we could introduce a section that delineates "true hormones" from chemo-, lympho- and cytokines, interleukins, prostanoids and other locally active mediators (although interleukins and cytokines have systemic effects). JFW | T@lk 10:24, 19 May 2004 (UTC)
Gedday JFW, trust me, I know adrenaline. I understand the overlap, but I didn't think that all the neurotransmitters are hormones. The current definition (ie A hormone (from Greek horman - "to set in motion") is a chemical messenger from one cell (or group of cells) to another.) would include ACh and glutamate and every other neurotransmitter and autacoid as hormones. but it's not my area... Erich 11:21, 19 May 2004 (UTC)
Ah, the Gasboy has finally changed his signature back from e.
Of course you know adrenaline... or do you rather use ephedrine when an oldtimer remains bradycardic and hypotensive despite atropine...
I suggest we ask Alter ipse amicus for his opinion. JFW | T@lk 11:39, 19 May 2004 (UTC)

A formal distinction would be whether the neurotransmitters signal any farther than the distance of the synapse, in which case few would classify them as hormones. For research purposes, there are hundreds of chemical signals that are technically hormones. Every organ in the body is an endocrine organ, making hormones (brain, heart, lungs, skin, fat, intestines, etc). You can review the program of the upcoming Endocrine Society meetings and see a wide range of interests [1]. On the other hand, clinical endocrinologists restrict their attentions to the "classic" hormone systems of growth puberty, sex, fuel metabolism, wt regulation, calcium balance, etc. AlteripseAlteripse 23:40, 19 May 2004 (UTC)

so... the current definition is too broad??? Erich 23:24, 19 May 2004 (UTC)

Cytokines and all those things certainly fit any definition of hormone I can think of. However, I would argue that neurotransmitters can be described as a "local" enough signal that few people would call them hormones. Alteripse 23:40, 19 May 2004 (UTC)

yes the hh:mm, dd mmm yyyy tending to drown out 'e' which i'm otherwise fond of... back to 'Erich' for a while. Oddly Jiang's sig has appeal... well pacing sounds like the go in that situation if you've given maximal atropine. I guess you could give some adrenaline as well. vasoconstrictors tend slow the heart, but they are good in anaesthesia because the anaesthetics drop bp mainly by vasodilation. ephedrine is popular, and i've often got an ampule in my pocket. metaraminol is a potent vacoconstritor and does the job but phenylephrine is gaining in popularity. anyway I digress... yes i think alteripse will know all! Erich 12:51, 19 May 2004 (UTC)
If I may add my two cents worth, I'd say that "some compounds released from cells" can be a hormone and a neurotransmitter, or both. I don't think there is much gray area between hormones and neurotransmitters. It's the role played by the compound that is relevant. When it is transmitting signals between neurons, it's a neurotransmitter. When it is carrying out signals from an endocrine gland (which can be any tissues these days) along the bloodstream to it's specific target tissues where the receptor is expressed, it's a hormone. Some compounds, like the catecholamines, are capable of both, but don't expect them to do both jobs at the same time at the same locale.
The gray area, IMHO, lies with cytokines, which usually act locally (autocrine / paracrine) and don't ride with the blood to their targets. I see cytokines as a unique set of hormones with immune- and/or growth-related paracrine actions to multiple target cell types all expressing the receptors ....
PFHLai 13:49, 2004 May 20 (UTC)
There should be a section that discusses how steroid hormones activate prossess in target cells and how they differ from other hormones. C. Nelson

You are right, we have a steroid article but it doesn't treat steroid receptors and how they work in the nucleus to affect DNA transcription. Someday, when I get a round tuit... But anyone is welcome to jump in and do it. alteripse 01:37, 2 Mar 2005 (UTC)

What's "raghu is an intelligent in hormonal study" doing at the top of the article?


After Googling ectohormones to find out it's meaning it appears to me that the term it is being misused in the second paragraph of the article. Based on the definitions I came across, ectohormones target cells in other organisms whereas paracrine chemicals, which is what I think is being discussed, are chemicals that are released in tissues and act locally. Dbrouse

[edit] References

This article needs one or more references to cover the content--FloNight 23:24, 22 November 2005 (UTC)

[edit] How Hormones Work

I'm wondering just how exactly hormones work, this lists what they do, but not how they do it, say a hormone passes by some cells, how does it make/stimulate them to grow, or do whatever it wants them to?

There wasnt much was there? Is the new paragraph better? alteripse 04:26, 9 October 2006 (UTC)


I don't have this information in a Wikipedia friendly format (style & references) but would like to take a stab at answering your question. This information is written in more technical terms on the main page -- I am hoping that the following explanation is easier to follow.

Hormones are chemical substances that while being released in relatively small amounts, travel through the blood stream and cause significant effects. The two major functional categories of hormones are water soluble (amino acid based) and water insoluble (steroids & sterols + thyroxine).

The water soluble hormones will only influence cells that have a receptor protein for that hormone on the surface of their plasma membrane (cell membrane). The receptor is often functionally the first component of a second messenger system which causes a cascade of effects that amplify the signal and ultimately cause many enzymes to be phosphorylated and have their function toggled (on --> off, or off --> on). Paracrines, autocrines, & neurotransmitters can also use second messenger systems but their targets cells are generally very close to the location of where they were released (on the order of millimeters to a maximum of a few centimeters) as they are not released into the blood stream.

Steroid hormones have a very different mechanism of action. They are released from the endocrine gland (adrenal cortex or gonad) and are bound onto a carrier protein that will shuttle hydrophobic substances through the circulatory system. Some steroid hormones have a specific carrier and others use albumin. The lipid soluble steroid hormone can easily dissociate (jump off the carrier protein) and cross the plasma membrane of potential target cells. The steroid hormone will only have an effect if the cell has a receptor in the cytoplasm or nucleoplasm that the steroid can bind onto. If there is a receptor to bind the steroid hormone, the hormone-receptor complex will diffuse into the nucleus and bind onto regions of DNA, altering gene expression.

Summary:

  • water soluble hormones bind onto a receptor on the surface of the cell and then alter the activity of proteins via a second messenger system.
  • steroid hormones (& thyroxine) bind an intracellular receptor and control the rate of manufacture of proteins at the DNA level.

I hope that helps. If anyone finds the above useful and knows how to convert it into an acceptible format for Wikipedia... ...feel free. Otherwise, I'll try to remember to come back and do it sometime. Dbrouse 23:40, 29 October 2006 (UTC)

[edit] removal of estrone and estriol

I am curious about the removal of my additions (estrone & estriol) to the list of estrogens by Maork. Is there a good reason these should not be listed? Dbrouse 20:07, 29 October 2006 (UTC)

I moved the comment to bottom, where we usually put newer comments and added a heading, as is usual when introducing a new topic. To answer your question, I dont know. I might guess that Maork removed them because they are basically derivatives or less important as human hormones than estradiol, but not really sure. Unfortunately the addition and removal were quickly buried under the vandalism and reversion. I would suggest you could either wait a couple of days and see if Maork responds, replace them in the list and start a conversation if he removes them again without explanation, or put the question on his talk page if he doesnt answer here in a day or two. alteripse 22:06, 29 October 2006 (UTC)


Thank you for the response. I am relatively new to editing in Wikipedia and so I am trying to "learn the ropes." Your personalized response helps remind me that the effort is worth it. Thank you, also, to whoever organinzed this discussion. Dbrouse 23:14, 29 October 2006 (UTC)

After waiting for several months with no response to my question about the deletion, I have added those hormones back. As estriol is necessary for a successful pregnancy, I consider it important and so it should be on the list of Important Human Hormones. Dbrouse

[edit] Anger Hormones

Do they exist? Thanks. UlisesRey 17:48, 10 November 2006 (UTC)

Testosterone has been linked to agressivity. Don't know of any "anger" hormones per se. Horia 19:48, 17 December 2006 (UTC)
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