Wednesday, October 31, 2007
The Darker Side of Happy Pills
Variant genes increase suicidal thoughts
By: Jigyasa Jyotika /The Daily Cardinal
New study begins to unravel the dark side of antidepressants
Although most people are knowledgeable about the positive effects of antidepressants (a.k.a. “happy pills”), far fewer are aware of the dark side of these drugs—the same pills prescribed to help make patients happy may be leading some patients to suicide.
Researchers and doctors became increasingly alarmed during 2004 when studies suggested antidepressants increased the risk of suicide in some adolescents and children. As a result of these studies, the Food and Drug Administration required all antidepressant medications to carry “black box warnings,” alerting parents and patients of the risks associated with taking antidepressants.
While scientists have continued to struggle to make sense of the paradoxical relationship between the use of antidepressants and increased rates of suicide since 2004, this October, researchers at the National Institutes of Mental Health discovered two genes that may help to explain this link.
In one of the largest and most comprehensive studies of its kind to date, researchers at NIMH found that the inheritance of one or two genes increased the likelihood of suicidal thoughts among patients taking an antidepressant called citalopram between two- to 15- times compared to those who did not share similar genes.
“This study is a step forward in individualizing depression treatment for patients identified as high-risk for suicides,” said Michael Peterson, a UW-Madison instructor of psychiatry.
Citalopram, a drug within the selective serotonin re-uptake inhibitor family, works to decrease feelings of depression by preventing the recycling of the “happy hormone” serotonin, which results in higher serotonin levels in the brain. According to Peterson, SSRIs are the most commonly prescribed antidepressants.
Scientists from the NIMH looked at 68 suspect genes in more than 1,900 adults with major depression who were treated with citalopram. Based upon patient reports of suicidal thoughts and genetic code variation among the 68 suspected genes, the researchers narrowed their search to two variable gene sequences, or “markers.”
“A small variation in the sequence of these genes is what seems to predispose some people more than others to suicidal thoughts while taking the drug,” said Gonzalo Laje, a co-author of the study.
While participants with only one of two genetic variants were two- to eight-times as likely as those without variants to develop suicidal thoughts while taking citalopram, a NIMH press release reported those with both variants—an extremely rare phenomenon—were 15 times as likely to report suicidal thoughts.
Researchers also found gene variants were not related to self-reported history of suicide attempts, suggesting the genetic variations leading to suicidal thoughts were occurring during antidepressant treatment, not outside treatment.
Overall, 59 percent of the patients who had suicidal thoughts had at least one of the variable gene versions. This still left out 41 percent of the participants, who developed suicidal thoughts without either variant, indicating that other genes and environmental factors may also be involved.
In the future, the NIMH plans to begin to attempt to understand why the identified genetic variations are leading to increased suicidal thoughts among people who take citalopram and if similar variations could be linked to increased suicidal thoughts among people on other antidepressants.
“It remains unclear at this point why we see what we see,” Laje said.
Tuesday, October 30, 2007
"Anything that doesn't matter has no mass"
Limericks began in Limerick City, Ireland
There was an old lady called Wright,
Who could travel much faster than light,
She departed one day in a relative way and returned on the previous night.
A Short History of Medicine
I have an earache:
2000 B.C. -Here, eat this root.
1000 A.D. -That root is heathen. Here, say this prayer.
1850 A.D. -That prayer is superstition. Here, drink this potion.
1940 A.D. -That potion is snake oil. Here, swallow this pill.
1985 A.D. -That pill is ineffective. Here, take this antibiotic.
2000 A.D . -That antibiotic is artificial. Here, eat this root.
Quotables
Copernicus' parents : "Copernicus, young man, when are you going to come to terms with the fact that the world does not revolve around you?"
Physicist : Anything that doesn't matter has no mass.
Cricketer Navjot Singh Sidhu adds: It's all about mind and matter; I don't mind and you don't matter.
A biologist is only a lab rat's way of making another lab rat .
- Random Rat
Sigh-ence
The transplant had finally started.
The incision was carefully charted.
The dog was just sliced,
And the chicken was spliced,
And the dog is now chicken-hearted.
Q: How many physicists specializing in general relativity does it take to change a light bulb?
A: Two. One to hold the bulb and one to rotate the universe.
A little neurological put down: You've only got two neurons--and one of them's inhibitory.
Newsflash: Physicists have embarked on their own product safety campaign, recommending that manufacturers provide consumers with all of the following labels:
WARNING: Due to its heavy mass, this product warps the space surrounding it. No health hazards are yet known to be associated with effect.
NOTE: This product may actually be nine-dimensional but, if this is the case, functionality is not affected by the extra six dimensions.
NOTE: A subatomic "glue" holds the fundamental constituents of this product together. Since the exact nature of this glue is not yet fully understood, its adhesive power cannot be guaranteed. To date, no known malfunction of the product has resulted from glue failure.
What do biologists do when they have twins?
Baptize one and keep the other as a control.
Q: Why did the dinosaur cross the road?
A: Chickens hadn't evolved yet.
Support bacteria - it's the only culture some people have!
Q: What tool is used to measure a hole in the head?
A: A Phineas gage.
(Phineas Gage was a railroad worker who was in charge of explosives which blew up in his face, driving the iron through the frontal lobe of his brain. He survived, to the total astonishment of the doctor, but with a radically altered personality, thus becoming the first victim of an accidental frontal lobotomy.) More at : http://www.mc.maricopa.edu/~reffland/anthropology/anthro2003/origins/phineas.html
Or borrow a copy of " The Emerging Mind" by renowned Neurobiologist VS Ramachandran from me.
Sunday, October 28, 2007
Tuesday, October 23, 2007
And Heaven and Nature Sing...
Richard Clayderman's Starlight Serenade :
Ross Daly's Rababa Sarangi Duet :
Edith Piaf's Milord (Me Lord) :
Cheb Mami (When Less is More....)
[ lai......... lai… lai… aa^ … pa … aa^ … pa… ma… pa…
lalima de afrina de nin hau husain' wah^ ho ya ho ya husain di^ di^
de nin hau husain' wah^ ho ya ho ya husain di^ di^
de nin hau husain' wah…….. ali ya husain di di]
I dream of rain {yele e yele} [ husain wah^]
I dream of gardens in the desert sand [hus…ain wah ]
I wake in pain {yele e yele} [husain wah……… ]
I dream of love as time runs through my hand
I dream of fire {yele e yele} [oo…. oo……]
Those dreams are tied to a horse that will never tire
And in my flames {yele e yele} [ ho ho ho……]
Her shadows play in the shape of man's desire
This desert rose {yele e yele}
Each of her veils a secret promise
This desert flower {yele e yele}
No sweet perfume ever tortured me more than this { 5 }
And now she turns {yele e yele}
This way she moves in the logic of all my dreams
This fire burns {yele e yele}
I realize that nothing's as it seems
I dream of rain {yele e yele} [ ho ho…… ho]
I dream of gardens in the desert sand
I wake in pain {yele e yele}
I dream of love as time runs through my hand
I dream of rain {yele e yele}
I lift my gaze to empty skies above
I close my eyes this rare perfume
Is the sweet intoxication of her love
[Aa ma na ma na ma na ma na na ma
aa……. Pa…….
aa …………
aa^ ………
aa^………
aa…………]
[lai….. ma^…. pa ma^ …. pa ma pa ]
{yeh………} I dream of rain {yele e yele} [husain wah^]
I dream of gardens in the desert sand
I wake in pain {yele e yele} [ husain wa……]
I dream of love as time runs through my hand [I wa^…..ke in pain]
This desert rose {yele e yele}
Each of her veils a secret promise + [veils a secret prom.……]
This desert flower {yele e yele} + [o^……….]
No sweet perfume ever for tortured me more than this +
Sweet desert rose {yele e yele} + [swwee…… desert rose yele e yele]
This momery of eden haunts as all +[ of eden haunts……..]
This desert flower this rare perfume +[This desert flower this rare per^...fume]
Is the sweet intoxication of her fall. +[Is the sweet intoxication of her fall]
[he oo……… he oo…….. he oo…….
ali ya…… mohomadali….
ali ya………. mohomadali
ya…………
yo………. ………...]
Sunday, October 14, 2007
Kahat Kabir: Haman Hai Ishq Mastana
Haman hai ishq mastana,
Haman ko hoshiyari kya?
Rahe azad ya jag mein,
Haman duniya se yaari kya?
I am bursting with love,
Why do I need to be careful?
Being free in the world,
What of the world’s friendship do I need?
Haven't found a translation for the rest yet..
Jo bichude hain piyare se,
Bhatakte dar badar phirte,
Haman hai ishq mastana,
Haman ko hoshiyari kya?
Hamara yaar hai humme,
Haman ko intazaari kya?
Na pal bichude piya hum se,
Na hum bichude piyare se.
Haman hai ishq mastana,
Haman ko hoshiyari kya?
Unhi se neh laga hai,
Haman ko bekarari kya?
Kabira ishq ka mata,
Dui ko dur kar dil se.
Jo chalna rah nazuk hai,
Haman sar bojh bhari kya?
Bavra Mann : Mera Pahla Anuvaad Prayaas
Bavra Mann Dekhne Chala Ek Sapna
The insane mind wanders off into a dream,
Bavre Se Mann, Ki Dekho Bavri Hain Baatein
Bavri Se Dhadkaane Hain, Bavri Hain Saansen
The insane words of the insane mind…
Insane are its heartbeats, Insane are its breaths.
Bavri Si Karwaton Se, Nindiya Door Bhaage
Insane restless nights that drive sleep away…
Bavre Se Nain Chaahe, Bavre Jharokhon Se, Bavre Nazaron Ko Takna.
Insane eyes seek insane images through insane windows.
Bavre Se Is Jahan Main Bavra Ek Saath Ho
Is Sayani Bheed Main Bas Haathon Mein Tera Haath Ho
Bavri Si Dhun Ho Koi, Bavra Ek Raag Ho
Bavre Se Pair Chahen, Baavron Tarano Ke, Bavre Se Bol Pe Thirakna.
In this insane world, Wishing for insane company,
Your hand be in mine in this maddening crowd,
Insane be the tune, Insane be the melody,
Insane feet moving to the insane notes of an insane song.
Bavra Sa Ho Andhera, Bavri Khamoshiyan
Thartharati Low Ho Maddham, Bavri Madhoshiyan
Bavra Ek Ghoonghta Chahe, Haule Haule Bin Bataye, Bavre Se Mukhde Se Sarakana,
Insane be the darkness, Insane be the silences,
Soft be the glow of the flickering flame, Insane intoxication,
An insane veil slips slowly, surreptitiously from an insane face.
Ashiq Bekhabar Manam (Abida Parveen)
Mann Na Manam , Na Mann Manam,
Arif e Baa Hunar Manam,
Mann Na Manam, Na Mann Manam
In Love, lost to the world, I am,
I am not, Yet, I am
Realised as a soul I am,
I am not, Yet, I am
Soze Dil o Jigar Manam,
Vehshat e Pardadar Manam,
Danish e Bakhiya Gar Manam,
Mann Na Manam, Na Mann Manam
A flame in love, I am,
Restless in solitude, I am,
The all knowing healer, I am,
I am not, Yet, I am
Husn o Jamaal e Haq Manam,
Ijz o Jalaal e Haq Manam,
Hashmat o Jaah o Far Manam,
Mann Na Manam, Na Mann Manam
The beauty of Truth;
Its magnanimity, I am
I am its grandeur,
It's splendour I am
Sufi e Baa Safa Manam,
Be Khud o Ba Khuda Manam,
Ahl e Dil o Nazar Manam,
Mann Na Manam, Na Mann Manam
The purest of the pure,
I am with him, Yet without him I am,
The heart and vision,
I am, Yet, I am not
Isa e Maryami Manam
Ahmad e Hashmi Manam,
Haider e Sher e Nar Manam,
Mann Na Manam, Na Mann Manam
Mary's Christ, I am,
I am, Ahmad of Hashim,
I am of Ali the bravest of the brave,
I am, Yet I am not
Raaz o Niyaaz e Khud Manam,
Soz o Gudaaz e Khuda Manam,
Karda Qadam Ba Sar Manam,
Mann Na Manam, Na Mann Manam
The keeper of inner secrets, I am,
I am, the reflection of my anguish
He who moves on his head,
I am, Yet, I am not
"Reality Is Just Theory For This Bunch"
I can never get over how good this is!
The Fate of the Universe
You physicists have become annoying
You can't seem to make up your minds
Did everything come from nothing
Or was nothing all there was to find?
What was that first singularity
And what made it start to inflate?
You say a vacuum is not really empty
As long as energy potentiates?
At time zero there was zero space
But fluctuation took care of that
Now there's space of an ill-defined shape
That's full of live/dead cats.
Continuing on you tell us
That we're here cause CP ain't conserved
I never thought of myself as a leftover
This is becoming absurd.
But the universe is here now
At least part of it, I guess,
How is it you can't find the dark matter
To account for the missing mass?
And what is this dark energy
Permeating like a fog?
Einstein was shamed by his fudge factor
But you've brought it back in vogue.
The news from Canada is distressing
There are too few neutrinos from the sun
But physicists aren't constrained by facts
They'll make three neutrinos from one.
So the Standard Model is in danger
It's time for a paradigm shift,
Well paradigm shift, shmaradigm pfffft,
Will you guys please get over it.
Any idea how the story will end?
Big crunch, cold death, lost souls?
Or a slipper slide to a new universe
Through a slimy little worm hole?
Which confirms my general suspicion
That reality is just theory for this bunch
Waves are particles, particles are strings,
And the universe is the ultimate free lunch.
Leslie C. McKinney, Ph.D.
Neurobiologist
copyright 2001
Friday, October 12, 2007
Best American Science Writing 2007 – Gripping and Relevant
With a multitude of diverse stories about the latest discoveries in science, what ties them all together and stands out as the single unifying theme in the entire Best Science Writing 2007 collection is the humanistic angle within it all.
“The articles show what a human endeavor science is, and, in the hands of these skilled reporters, what memorable tales can be told,” said Editor Gina Kolata in her introduction to the the book.
The stories talk. Many of the descriptions are absolutely raw. Some even hair-raising.
The reader is lost deep in the middle of the story and a strong connection with the patients, scientists or doctors established.
The articles often leaves you with more uncertainty, and more questions, than answers.
Stereo Sue
Early into the book, world famous neurologist Oliver Sacks is introduced with his “Stereo Sue” story. Stereo Sue is the story of a neurobiologist who (believe it or not) having had two-dimensional impaired vision her entire life, just discovers that Nature meant vision to be three-dimensional when her sight is improved by surgery. As she watches her first snowfall in its right dimensions, and observes the air between chairs in a seminar room or the way a partially open door sticks out in a room when she is about to enter it, the reader travels with her in her journey from a flat to a “raised” world.
The Score
Well known doctor and acclaimed reporter for the New York Times, Atul Gawande’s “The Score”, bloody at places makes your blood freeze at places too. Not recognized for what it truly entails, the process of child-birth is unveiled for the reader, contraction by contraction. Gawande underscores something that is becoming increasingly more common knowledge, yet often escapes the attention of doctors and that of society as a problem – the number of mothers that die during delivery is enormous both in the country and in the world. To say nothing of the number of babies that are stillborn. As he describes the story of Elizabeth Rourke, an expecting mother who is almost 40 hours into labour with little chance of the baby coming out, she finally takes an epidural after prolonged abstinence, and when even that doesn’t help, she gets surgery to get the baby out, the reader is with Rourke the entire time. Her example is used well to illustrate the manifold complications and difficulties encountered in the journey of the baby from the uterus to the world.
Probing a Mind for a Cue
In an era where research is dominated by the mysteries of the mind and the unearthing of these mysteries, “Probing a Mind for a Cure” by Stacey Burling is apt. In talking about how a gentle professor who loved Mozart and ice cream slowly deteriorates to showing violent behavior and being delirious as he develops Alzheimer’s disease in his 60s, the surprise and dismay of his family and physicians is captured. The story takes the reader from the doctor that is slicing the professor’s brain after his death and looking for all the signs that could tell him what went wrong with it, to the family’s coping mechanisms with the illness which culminates in their gratitude when he finally dies.
A Depression Switch
As if these stories were not enough, the next story called “A Depression Switch” is by David Dobbs, and stands out in the entire collection as the single most horrifying and mysterious read. The human brain is remarkable. Until it stops working right. Neither do scientists really understand how the brain works when it does, nor do they understand what goes on exactly when it doesn’t. This given, the story of a healthy woman in her 40s who became irretrievably depressed for no apparent reason at all hits you hard with its highs, lows, uncertainties and hopelessness. Someone who lived a happy, stable and comfortable family and work life and had three kids and good money, suddenly becomes so emotionally numb that she doesn’t think she can go on. Anti-depressants don’t work on her and when her desperation crosses all limits, her brain is given mild electric shocks in a high risk, no guarantee procedure by drilling holes deep into her skull while she is awake under only local anesthesia so that she can describe to the doctor how she feels when the electrical stimulation is applied to her brain. The doctor tells her to report everything she feels without making judgments about what is trivial like the urge to scratch her nose. He has to gauge from her responses if the procedure is helping her regain her emotional disconnectedness. At some point, when “area 25” in a deep and central part of her brain is given a shock, she suddenly stops feeling the emotional numbness she has for years. With that, the surgery is declared a success, though a temporary one. Doctors say she will be back. This story is so compelling, that reading it without intensely wondering what the human mind really is, is a challenge.
The Man on the Table Was 97, But He Devised the Surgery
Late into the book, Lawrence Altman’s “The Man on the Table Was 97, But He Devised the Surgery” is presented. This story is that of a 97-year-old world-renowned heart surgeon who experiences an intense chest pain and thinks he is going to die, but ultimately diagnosis himself correctly and gets surgery using the same procedure he had devised decades ago. The professor, who later admits that he was in denial, refuses any treatment for several days and even lectures at a seminar with the condition. To add to the drama, the surgical team performing the surgery has to debate until the end whether or not it is ethical to go ahead with the procedure given his age which makes the procedure too risky to perform and the fact that he once signed an agreement saying he would rather die than have surgery performed on him. The team is divided on their opinion. The hospital’s anesthesiologist refuses to anesthetize the patient and a different one from another hospital has to be called for when the surgery is ultimately performed. The reader is on the edge of their seat waiting to find out whether or not he makes it. He does and even goes back to almost a full day’s worth of work the Friday after.
With Lasers and Daring, Doctors Race to Save a Young Man’s Brain
“With Lasers and Daring, Doctors Race to Save a Young Man’s Brain” by Denise Grady is a relevant addition to the collection and describes step-by-step the process of performing brain surgery. The story starts with the shaving of the skull of a patient to the painting of a bright purple line from the middle of the head down to the neck, to the anesthesia, and the four holes drilled into the patient’s head to attach him to a metal board so that the doctors get their “bearings” on the head right. It goes on to describe the anxious anticipation the chief surgeon experiences post-surgery and finally to the part when the patient is purposely startled and woken up from his deep sleep with a question by his surgeon to check if his basic reflexes still work, which is the only way to know how well the surgery went.
About the Contributors
An “About the Contributers” section serves well to satisfy readers’ curiosity about the writers which range from full-time doctors to reporters for the New York Times.
Editor Gina Kolata is an award-winning writer for the New York Times. She has also authored several books, including the bestselling Flu: The Story of the Great Influenza Pandemic of 1918 and the Search for the Virus that Caused It.
Venomous jellyfish to the rescue
By Jigyasa Jyotika
WisBusiness.com
MADISON -- In collaboration with a UW-Milwaukee lab, a Wisconsin biotech company is developing a compound from a protein found in jellyfish to act as a neuro-protective agent which may be effective in treating neurodegenerative diseases.
The neuro-protectant called aequorin could fight a whole series of degenerative diseases such as Alzheimer’s, Parkinson’s, Huntington’s, Amyotrophic Lateral Sclerosis (ALS), Multiple Sclerosis (MS) and other rare neuro-degenerative diseases.
“Testing of aequorin has yielded some very promising results,” said Mark Underwood, president of Quincy Bioscience.
Assistant professor and collaborator James Moyer of UW-Milwaukee showed that when he subjected rat brain cells to “stroke conditions” in the lab, up to 28 to 45 percent of the cells treated with aequorin survived without any residual toxic side effects.
Moyer’s team is now testing the protein in healthy young animals to assess whether it helps them learn and retain their memory as they age.
Underwood became interested in aequorin during his undergraduate years majoring in psychology at UW-Milwaukee after reading an article that linked the stings of jellyfish with the symptoms of multiple sclerosis, a disease that affected his mother.
What does a protein from a venomous jellyfish have to do with neuro-degenerative diseases? The answer has to do with calcium and calcium imbalance in the body.
Calcium is required not only for bone growth but also for communication of neurons in the brain; learning and memory are not possible without it. But during aging and in neuro-degenerative diseases excessive inter-cellular calcium builds up and excites brain cells causing them to short circuit and eventually die.
Cells normally control calcium influx via calcium-binding proteins that selectively bind to it preventing the calcium imbalance. Loss of these proteins is the common denominator between aging and the neurodegenerative disease process.
Aequorin is a calcium-binding protein that is similar in structure to its corresponding human protein and by selectively binding calcium, it acts as a “surge protector” preventing excess calcium buildup. While jellyfish inject their prey with calcium and kill them via calcium mediated cell death, they use high quantities of aequorin to protect themselves from circulating high calcium levels in their bodies.
In 2004, Underwood turned his idea of using aequorin as a neuroprotectant into a business plan. Quincy Bioscience was founded in concert with Mike Beaman, owner of the Quincy Resource Group, after recombinant techniques to make proteins in huge quantities were born. Underwood declined to discuss the amount and source of equity financing received by the company, but said it is privately funded.
Aequorin has been used as a toxicity indicator in scientific research for 40 years, but until now it has never been investigated for its therapeutic qualities. That is why Underwood’s idea qualified for patent protection. But properties about its toxicity, availability, manufacture, and its selective calcium binding property were already known when the business started.
Because the basic properties of the protein were well known before the company was started, Quincy Bioscience at three years old is at the eight-year mark in the typical 15-year cycle for new drug development. The company expects to launch Prevagen (the aequorin dietary supplement that keeps 55 percent of the cells treated with it alive, compared to a placebo) in the market as early as September this year. The pharmaceutical aequorin product is in the pipeline, but about seven years away from the market, Underwood estimated.
Quincy business cards and the company website both read: “It can be done.” That’s in solidarity with President Ronald Reagan, who died the same day the company was founded – June 7, 2004. With the kind of data that experiments are showing so far, that motto may very well come true.
Loneliness "Makes Molecular Noise" ...
Chronic loneliness is bad for your health
By: Jigyasa Jyotika /The Daily CardinalScientists say isolation decreases immune response and increases risk of disease.
Eric Hoffer, an acclaimed American social writer during the late 1950s through early 1970s, once wrote, “It is loneliness that makes the loudest noise.”
Last month, a group led by UCLA scientists discovered loneliness can also wreak havoc at the molecular level.
While everyone feels lonely from time to time, researchers say incessant feelings of loneliness can significantly weaken one’s immune system and lower defenses against a variety of diseases.
“This pilot study provides the first indication that gene expression is altered in human beings who experience chronic social isolation,” said Louise Hawkley, a research scientist at the University of Chicago and co-author of the study.
The study showed that DNA from the immune cells of those with chronic loneliness differs from the DNA of healthy patients. According to researchers, the difference in DNA between the groups predisposed the chronically lonely to an increased risk of developing heart disease, viral infections and cancer.
Researchers evaluated participants’ feelings of loneliness through a survey, where they were rated high on the loneliness index if they responded positively to statements such as “I’m alone in the world” and “There’s no one I can count on.” Each participant’s loneliness was assessed based on his or her interpretation of feelings of loneliness, regardless of the number of people involved in the participant’s life.
Based upon their responses to the loneliness questions, the UCLA team ranked the male and female participants from most lonely to least lonely and compared the white blood cells of eight people who scored in the top 15th percentile of loneliness and six who scored in the bottom 15th percentile.
To compare the DNA in the white blood cells of lonely and healthy participants, scientists used DNA microarrays, a method that enables researchers to sift through the genetic information of cells. Microarray analysis revealed more than 200 genetic differences between the two groups.
According to Louise Hawkley, a research scientist at the University of Chicago and co-author of the study, genes responsible for the body’s inflammatory response were “over-expressed in lonely individuals but those involved in anti-viral responses and antibody protection [were suppressed].”
“The differential pattern of gene expression indicates a systematic amplification of inflammatory and immune responses that could potentially mediate the increased risk of inflammatory disease in socially isolated human beings,” Hawkley said.
According to the results of the UCLA study, the differences in gene expression between lonely and healthy participants were independent of other known risk factors for inflammation such as health, age, weight and medication use. The changes were also independent of the objective size of the social network of the subject.
Researchers agree these findings provide a molecular framework to explain how social factors are linked to an increased risk of disease.
“The study uses cutting edge technology and shows that genes are not hard-wired,” said Jack Nitschke, a UW-Madison assistant professor of psychiatry and psychology. “[Gene] expression is turned on or off in response to environmental events.”
While the loneliness study may help researchers block the adverse health effects of social isolation in the future, this study represents only the first of many necessary steps in the right direction.
Four-legged “Rain Man” provides new directions for autism research
UT-Southwestern scientists genetically engineer an antisocial, smart mouse
While searching for a mouse that exhibits the behaviors commonly seen in patients with autism, researchers at the University of Texas Southwestern Medical Center have stumbled upon a super smart yet socially awkward mouse similar to the loveable Raymond from the 1988 movie “Rain Man.”
Researchers hope the discovery of the “Rain Man” mouse will offer new insights into understanding autism, a disease that impacts more than 1.5 million people in the United States.
Autism is a complex brain disease caused during development and characterized by abnormalities in brain structure and function. According to Ellis Weismer, a UW-Madison professor of communicative disorders, autistic patients typically exhibit deficient communication, repetitive behavior and impaired social interactions.
Some scientists believe a patient’s genes may be partly to blame for autism. To better understand the genes implicated in autism, researchers study genetically engineered mice to express the common behaviors observed in patients with the disease.
Previous studies have led researchers to believe some cases of autism are linked to genetic mutations in neuroligins, molecules which adhere nerve cells together. Researchers at UT-Southwestern Medical Center administered a mutated human form of the neuroligin-3 molecule to mice and observed how the mice interacted socially with the normal mice in a cage.
While the average mouse spends time playfully wrestling and snuggling with other mice, the genetically engineered mice spent significantly less time socializing with other mice and more time with inanimate objects instead.
When it came to “mouse smarts,” the genetically engineered mice outdid their normal counterparts significantly in a “spatial ability” test. Although unproven in mice, spatial and mathematical abilities are linked significantly in humans, explained Thomas Südhof, a UT-Southwestern molecular genetics professor and senior author of the study.
“When you manipulate a brain, you usually don’t improve it,” Südhof said. “The fact that we get an improvement at all is very good. It shows we’re changing something specific.”
Researchers also examined how a mutated form of a brain molecule that helps bind nerve cells together affects brain signaling. In healthy brains, nerve cells work together to excite and inhibit brain signaling. An imbalance in signaling is thought to be involved in autism.
Nerve cells from the genetically engineered mice showed a significantly greater inhibitory action than their normal counterparts. This finding was a surprise, as previous studies have indicated that a loss of inhibitory action is possibly involved in autism.
“The results of the study are important because they show us how autistic symptoms are possibly generated by the developing brain and indicate that focusing on inhibitory action might be a way to treat autistic behaviors,” Südhof said.
While the UT findings offer new directions for autism research, Südhof cautioned that the “Rain Man” mouse offers only an approximation of a human condition.
“[Mouse models of autism are] an attempt to replicate, as best we can, a complicated disease that has, as a symptom, an inability to use language effectively,” Südhof said.