New Theroy on why Men love Womans Breasts

[starguard]

Ran across this and thought I'd share it here

New Theory on Why Men Love Breasts
Natalie Wolchover, Life's Little Mysteries Staff Writer
Time: 06:34 PM ET i


Men are programmed to like breasts, but it isn't for the reasons scientists once thought.

Why do straight men devote so much headspace to those big, bulbous bags of fat drooping from women's chests? Scientists have never satisfactorily explained men's curious breast fixation, but now, a neuroscientist has struck upon an explanation that he says "just makes a lot of sense."

Larry Young, a professor of psychiatry at Emory University who studies the neurological basis of complex social behaviors, thinks human evolution has harnessed an ancient neural circuit that originally evolved to strengthen the mother-infant bond during breast-feeding, and now uses this brain circuitry to strengthen the bond between couples as well. The result? Men, like babies, love breasts.

When a woman's nipples are stimulated during breast-feeding, the neurochemical oxytocin, otherwise known as the "love drug," floods her brain, helping to focus her attention and affection on her baby. But research over the past few years has shown that in humans, this circuitry isn't reserved for exclusive use by infants.


Recent studies have found that nipple stimulation enhances sexual arousal in the great majority of women, and it activates the same brain areas as vaginal and clitoral stimulation. When a sexual partner touches, massages or nibbles a woman's breasts, Young said, this triggers the release of oxytocin in the woman's brain, just like what happens when a baby nurses. But in this context, the oxytocin focuses the woman's attention on her sexual partner, strengthening her desire to bond with this person.

In other words, men can make themselves more desirable by stimulating a woman's breasts during foreplay and sex. Evolution has, in a sense, made men want to do this.


Attraction to breasts "is a brain organization effect that occurs in straight males when they go through puberty, "Evolution has selected for this brain organization in men that makes them attracted to the breasts in a sexual context, because the outcome is that it activates the female bonding circuit, making women feel more bonded with him. It's a behavior that males have evolved in order to stimulate the female's maternal bonding circuitry.

So, why did this evolutionary change happen in humans, and not in other breast-feeding mammals? Young thinks it's because we form monogamous relationships, whereas 97 percent of mammals do not. "Secondly, it might have to do with the fact that we are upright and have face-to-face sex, which provides more opportunity for nipple stimulation during sex.

In monogamous voles, for example, the nipples are hanging toward the ground and the voles mate from behind, so this didn't evolve," he said. "So, maybe the nature of our sexuality has allowed greater access to the breasts."Attraction to breasts "is a brain organization effect that occurs in straight males when they go through puberty," Young told Life's Little Mysteries. "Evolution has selected for this brain organization in men that makes them attracted to the breasts in a sexual context, because the outcome is that it activates the female bonding circuit, making women feel more bonded with him. It's a behavior that males have evolved in order to stimulate the female's maternal bonding circuitry."

Young said competing theories of men's breast fixation don't stand up to scrutiny. For example, the argument that men tend to select full-breasted women because they think these women's breast fat will make them better at nourishing babies falls short when one considers that "sperm is cheap" compared with eggs, and men don't need to be choosy.

But Young's new theory will face scrutiny of its own. Commenting on the theory, Rutgers University anthropologist Fran Mascia-Lees, who has written extensively about the evolutionary role of breasts, said one concern is that not all men are attracted to them. "Always important whenever evolutionary biologists suggest a universal reason for a behavior and emotion: how about the cultural differences?" Mascia-Lees wrote in an email. In some African cultures, for example, women don't cover their breasts, and men don't seem to find them so, shall we say, titillating.

Young says that just because breasts aren't covered in these cultures "doesn't mean that massaging them and stimulating them is not part of the foreplay in these cultures. As of yet, there are not very many studies that look at [breast stimulation during foreplay] in an anthropological context," he said.

Young elaborates on his theory of breast love, and other neurological aspects of human sexuality, in a new book, "The Chemistry Between Us" (Current Hardcover, 2012), co-authored by Brian Alexander

LINK: http://www.livescience.com/23500-why-men-love-breasts.html

 

[Enkephalen]

Lots of "maybes" and "theories" but no hard proof except in he males' responses.

 

[Aquehonga]

Good find!:techman:

 

[Love Child]

I like breasts.

 

[Love Child]

And that is not a "new" theory, as usual, Starguard.

 

[Filthy Whore]

"Theroy" makes me stabby.

 

[Sarek]

Theroy?

 

[starguard]

I guess the earlier mentioned theory explains the rise of "Breast" aurants in N. America

[youtube]Snql5DtDiRo[/youtube]

 

[Sarek]

The more I think about this the dumber this whole theory sounds. Guys like breasts for one simple reason.

THEY MAKE OUR DICKS HARD!!

 

[J. Allen]

Breasts are soft and squishy, and they feel really good when you put your face between them. I see no reason for any other evidence.

 

[I Love Cunt]

All the better to control us! Those breasts!!!!!!!!!!

 

[Enkephalen]

They do tend to get in the way of your golf swing -- assuming your breasts are on the larger size.

 

[starguard]

Now that I think about it, I would love to hear what Tisiphone's opinions would on this subject!

 

[starguard]

Here is one experts opinion

 

[Penis]

Big lumps of saggy fat, with ugly nipples stabbing out from them. Seriously, look at a boob and ask yourself honestly, why are you attracted in that shit.

Ewww.

 

[FBI parte due]

Parasitic wasps switch off the immune systems of fruit flies by draining calcium from the flies' blood cells, a finding that offers new insight into how pathogens break through a host's defenses.

"We believe that we have discovered an important component of cellular immunity, one that parasites have learned to take advantage of," says Emory University biologist Todd Schlenke, whose lab led the research.

The Proceedings of the National Academy of Sciences (PNAS) published the results, showing how a wasp version of a conserved protein called SERCA, which normally functions to pump calcium from the cell cytoplasm to the endoplasmic reticulum, can block a host's cellular immune response.

"Before our study, there were hints that calcium signaling was important for blood cell activation following infection, but the fact that a parasite actively suppresses this signaling shows how important it is, Schlenke says. He adds that the insects can serve as a model for more complex human immune systems.

"It's incredible the way the wasps use a protein in their venom to control the flies at a molecular level," says Nathan Mortimer, a post-doctoral fellow in the Schlenke lab who conducted the experiments. "Instead of killing the fly immune cells, the wasps actually take over blood-cell signaling, manipulating the host's behavior from the bottom up."

The research team also included Emory biologist Balint Kacsoh; Jeremy Goecks and James Taylor, from Emory's departments of biology and mathematics and computer science; and James Mobley and Gregory Bowersock of the University of Alabama, Birmingham.

Fruit flies and the tiny wasps that parasitize them have co-evolved complex strategies of attack and defense. The wasps inject their eggs into the body cavities of fruit fly larvae, along with venom that aims to suppress the flies' cellular immunity. If the flies fail to kill the wasp egg, a wasp larva hatches inside the fruit fly larva and begins to eat its host from the inside out.

"The wasp larvae have these sharp appendages, like the fingers of Edward Scissorhands, that they use to stick into the fly tissue and start eating," Mortimer says. "It's a brutal process."

In previous research, the Schlenke lab has shown how fruit flies sometimes use alcohol in rotting fruit as a drug to kill the wasps.

In the current study, the researchers focused on the molecular attack strategies of the wasps. After sequencing the transcriptome of the newly described wasp species Ganaspis sp.1, they took a proteomic approach to identify peptide sequences out of the wasp's venom gland, which they could then link back to full-length transcript sequences.

"We found that the venom of Ganaspis sp.1 is a toxic cocktail of 170 different proteins," Schlenke says, "but the most prominent component was the SERCA calcium pump protein. That really surprised us."

Calcium pumps are found in the membranes of every living cell of every animal, and are needed to maintain ionic homeostasis and cellular stability. One type of pump moves calcium ions out of the endoplasmic reticulum and into the cytoplasm where they transmit signals that activate other proteins. The SERCA calcium pump operates in the opposite direction, sucking calcium ions out of the cytoplasm and back into storage.

"We wondered why the wasps would inject the flies with a protein that the flies already have, and that every cell needs to function," Schlenke says. "How could that be an infection strategy?"

The researchers knew of studies suggesting that a calcium burst in cytoplasm is associated with the activation of human blood cells. They wondered if something similar was happening with the flies.

Mortimer conducted experiments on a transgenic fly strain with cells that fluoresce in the presence of calcium. He found that the fly blood cells release a burst of calcium into their cytoplasm, and that this activates the blood cells to start homing in on the wasp eggs. Genetically increasing or decreasing blood-cell calcium levels makes the flies more or less resistant to the parasite infection.

"The wasp venom prevents this calcium burst, and it's like the fly blood cells don't realize they're supposed to be responding to infection," Mortimer says. "The venom essentially sucks the calcium out of the fly's blood cells."

The experiments showed that the wasp venom is specifically targeted to the fly blood cells, and has no effect on other cells.

An unresolved question is how a SERCA protein, which is hydrophobic and normally resides in an oily membrane, moves out of a wasp venom cell and makes its way into a fly blood cell.

"We have no idea how it works," Schlenke says, "but somehow this calcium pump moves through all these environments and finds its way into its target cells."

The researchers hypothesize that virus-like particles in the wasp's venom may be involved. "If they aren't really viruses, they seem to be some virus-like thing that the wasp has invented," Schlenke says. "It's pure speculation, but we think maybe the wasps use these particles as delivery vehicles for the calcium pumps."

Previous research has established that fruit fly immune signaling pathways have homologues in humans, making fruit flies a valuable model for learning about human immunity. That work led to the award of the 2011 Nobel Prize in physiology or medicine to Jules Hoffmann, a fruit fly immunologist.

Studying the wasp-fly battle for survival at the molecular level provides a powerful new tool for unlocking more secrets of immunity that could apply to human health, Mortimer says.

"I'm also interested in using the flies to understand more about the immune systems of mosquitos and other insect vectors of human disease," he says. "If we could somehow boost vector insect immunity, it could decrease transmission of human disease like malaria."

 

[Sarek]

All the women in this topic need to show us their tits. It's both pertinent to the topic and will add context to the conversation.

 

[Conchaga]

Parasitic wasps switch off the immune systems of fruit flies by draining calcium from the flies' blood cells, a finding that offers new insight into how pathogens break through a host's defenses.

"We believe that we have discovered an important component of cellular immunity, one that parasites have learned to take advantage of," says Emory University biologist Todd Schlenke, whose lab led the research.

The Proceedings of the National Academy of Sciences (PNAS) published the results, showing how a wasp version of a conserved protein called SERCA, which normally functions to pump calcium from the cell cytoplasm to the endoplasmic reticulum, can block a host's cellular immune response.

"Before our study, there were hints that calcium signaling was important for blood cell activation following infection, but the fact that a parasite actively suppresses this signaling shows how important it is, Schlenke says. He adds that the insects can serve as a model for more complex human immune systems.

"It's incredible the way the wasps use a protein in their venom to control the flies at a molecular level," says Nathan Mortimer, a post-doctoral fellow in the Schlenke lab who conducted the experiments. "Instead of killing the fly immune cells, the wasps actually take over blood-cell signaling, manipulating the host's behavior from the bottom up."

The research team also included Emory biologist Balint Kacsoh; Jeremy Goecks and James Taylor, from Emory's departments of biology and mathematics and computer science; and James Mobley and Gregory Bowersock of the University of Alabama, Birmingham.

Fruit flies and the tiny wasps that parasitize them have co-evolved complex strategies of attack and defense. The wasps inject their eggs into the body cavities of fruit fly larvae, along with venom that aims to suppress the flies' cellular immunity. If the flies fail to kill the wasp egg, a wasp larva hatches inside the fruit fly larva and begins to eat its host from the inside out.

"The wasp larvae have these sharp appendages, like the fingers of Edward Scissorhands, that they use to stick into the fly tissue and start eating," Mortimer says. "It's a brutal process."

In previous research, the Schlenke lab has shown how fruit flies sometimes use alcohol in rotting fruit as a drug to kill the wasps.

In the current study, the researchers focused on the molecular attack strategies of the wasps. After sequencing the transcriptome of the newly described wasp species Ganaspis sp.1, they took a proteomic approach to identify peptide sequences out of the wasp's venom gland, which they could then link back to full-length transcript sequences.

"We found that the venom of Ganaspis sp.1 is a toxic cocktail of 170 different proteins," Schlenke says, "but the most prominent component was the SERCA calcium pump protein. That really surprised us."

Calcium pumps are found in the membranes of every living cell of every animal, and are needed to maintain ionic homeostasis and cellular stability. One type of pump moves calcium ions out of the endoplasmic reticulum and into the cytoplasm where they transmit signals that activate other proteins. The SERCA calcium pump operates in the opposite direction, sucking calcium ions out of the cytoplasm and back into storage.

"We wondered why the wasps would inject the flies with a protein that the flies already have, and that every cell needs to function," Schlenke says. "How could that be an infection strategy?"

The researchers knew of studies suggesting that a calcium burst in cytoplasm is associated with the activation of human blood cells. They wondered if something similar was happening with the flies.

Mortimer conducted experiments on a transgenic fly strain with cells that fluoresce in the presence of calcium. He found that the fly blood cells release a burst of calcium into their cytoplasm, and that this activates the blood cells to start homing in on the wasp eggs. Genetically increasing or decreasing blood-cell calcium levels makes the flies more or less resistant to the parasite infection.

"The wasp venom prevents this calcium burst, and it's like the fly blood cells don't realize they're supposed to be responding to infection," Mortimer says. "The venom essentially sucks the calcium out of the fly's blood cells."

The experiments showed that the wasp venom is specifically targeted to the fly blood cells, and has no effect on other cells.

An unresolved question is how a SERCA protein, which is hydrophobic and normally resides in an oily membrane, moves out of a wasp venom cell and makes its way into a fly blood cell.

"We have no idea how it works," Schlenke says, "but somehow this calcium pump moves through all these environments and finds its way into its target cells."

The researchers hypothesize that virus-like particles in the wasp's venom may be involved. "If they aren't really viruses, they seem to be some virus-like thing that the wasp has invented," Schlenke says. "It's pure speculation, but we think maybe the wasps use these particles as delivery vehicles for the calcium pumps."

Previous research has established that fruit fly immune signaling pathways have homologues in humans, making fruit flies a valuable model for learning about human immunity. That work led to the award of the 2011 Nobel Prize in physiology or medicine to Jules Hoffmann, a fruit fly immunologist.

Studying the wasp-fly battle for survival at the molecular level provides a powerful new tool for unlocking more secrets of immunity that could apply to human health, Mortimer says.

"I'm also interested in using the flies to understand more about the immune systems of mosquitos and other insect vectors of human disease," he says. "If we could somehow boost vector insect immunity, it could decrease transmission of human disease like malaria."

I like the part about science.

Got any good stuff on moths with really long proboscises and their affect on the orchid population?

 

[Penis]

All the women in this topic need to show us their tits. It's both pertinent to the topic and will add context to the conversation.

Big sacks of sagging shit with ugly flesh poles stabbing out of them.

Sweet.

 

[FBI parte due]

I like the part about science.

Got any good stuff on moths with really long proboscises and their affect on the orchid population?

No, sadly.

Big fan of moths, though!