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Wednesday, January 24, 2018

Science behind Dolly the Sheep creates monkey clones



The creation of Zhong Zhong and Hua Hua, by tinkering with the method used for Dolly the sheep, raises ethical dilemmas JEFF J MITCHELL/REUTERS




Science behind Dolly the Sheep creates monkey clones


The birth of two baby monkeys created through the same procedure used to make Dolly the sheep could take science closer towards cloning humans, according to experts.

The crab-eating macaques, Zhong Zhong and Hua Hua, are the closest animals to humans yet to be created by effectively carbon-copying a single individual’s DNA.

The Chinese experiment also raises the ethically fraught possibility of testing new treatments on production lines of primates with identical genes.

Since Dolly was born at the Roslin Institute in Edinburgh on July 5, 1996, scientists have used the method — known as somatic cell nuclear transfer — to clone 23 more species, including pigs, cattle, a cat called Rainbow and a British boxer dog named Dylan.

The approach involves extracting a nucleus,…

Science


Link: https://www.thetimes.co.uk/article/cloned-monkeys-zhong-zhong-and-hua-hua-bring-identikit-humans-a-step-closer-zhen-liu-chinese-academy-of-sciences-in-shanghai-ln5dvjllc



Meet Zhongzhong and Huahua, the first monkeys cloned by the same method that created Dolly the sheep. @sarahzhang reports: http://theatln.tc/2n8tygt


Zhongzhong and Huahua are the first monkeys cloned by the same method that created Dolly the sheep.

Zhongzhong, a monkey clones Qiang Sun and Mu-Ming Poo / Chinese Academy of Sciences

Sarah Zhang
Jan 24, 2018
Science


SHANGHAI—For the past decade, Mu-Ming Poo, the director of the Institute of Neuroscience in Shanghai, has been on a quest to make monkeys that can be used to study human disease. Today, researchers in his institute announced a major milestone: the births of Zhongzhong and Huahua, the first two monkey clones created using the same technique behind Dolly the sheep.

Their names together form “Zhonghua,” meaning the Chinese nation or people, a nod to their national importance. China has invested heavily in primate research in recent years—as the United States and Europe have pulled back.

After Dolly’s birth in 1996, scientists quickly figured out how to clone mice, pigs, dogs, cats, cows, and more. But primates long proved elusive. In 2003, after scientists at the University of Pittsburgh used 716 eggs and failed to create a single clone, it was suggested that primate cloning—and by extension human cloning—is impossible using this method.

Zhongzhong and Huahua (Qiang Sun and Mu-Ming Poo / Chinese Academy of Sciences)In a recent interview in Poo’s office in Shanghai, he told me that human cloning is absolutely not his intention. That, he said, requires its own ethical debate. But he wants to use cloning to the expand the number of genetically modified monkeys, which are becoming easier to make using CRISPR.

For example, in 2016, scientists at the Institute of Neuroscience in Shanghai created monkeys with a mutated form of the gene MECP2, which is linked to autism spectrum disorder. The genetically modified creatures ran in circles and avoided other monkeys—behaviors that may echo children with the MECP2 mutation.

Yet, says Poo, the monkeys led to “very little” progress in understanding the disorder. “It is a feasibility demonstration that we can manipulate genes in monkeys, but it’s not a disease model,” he says. Different monkeys had copies of the gene in different parts of their genome, and their resulting behaviors varied. The technique used to create the MECP2 monkeys did not give scientists enough control. Similar problems can arise with CRISPR, a gene-editing technique that has been widely adopted in different organisms across the world. You can’t test new drugs on monkeys whose manifestations of disease are so different from one another.

With cloning, it is possible to genetically modify monkey cells in a dish, grow the cells in large numbers, and then create clones from them. The last step requires taking DNA out of the genetically modified cells and putting it into an egg—a procedure called somatic-cell nuclear transfer. Zhongzhong and Huahua were created this way, as was Dolly the sheep. (In 1999, scientists created Tetra the cloned monkey by splitting an eight-cell embryo into two, similar to the way twins are normally formed. This technique can create only a limited number of genetically identical monkeys.)

Unlike previous groups who have tried to clone primates unsuccessfully, Qiang Sun at the Institute of Neuroscience in Shanghai added two complex molecules after transferring the DNA. These molecules seem to alter the expression of genes—in particular, by unblocking genes necessary to reprogram a differentiated cell (whose fate has already been determined) into a stem cell (that can turn into anything). The molecules had been used before in other animals like mice but never successfully in primates.

The DNA from which Zhongzhong and Huahua were cloned came from fetal fibroblasts, a type of cell in connective tissue. The team also tried using DNA from adult-monkey cells, but the only two monkeys cloned this way died shortly after birth.

The cloning efficiency is still low—though comparable to that in other animals. To create Zhongzhong and Huahua, the team transferred fibroblast DNA into 127 eggs. Of those, 109 developed into embryos, and 79 were transferred into 21 surrogate monkey mothers.

There were six pregnancies and just two live births. Given these numbers, cloning genetically modified monkeys will remain very expensive.

Cloned and genetically modified monkeys, says Christopher Navara, a biologist at the University of Texas at San Antonio, “could be very useful for studies of some diseases, but less so for others.” Childhood disease could be studied in young monkeys immediately. Aging-related disease like Alzheimer’s or Parkinson’s would take decades, though. Crab-eating macaques, the species to which Zhongzhong and Huahua belong, live to 25 to 30 years.

It’s also unknown whether cloning creates other health problems. While concerns about Dolly’s premature aging may have been overblown, clones can be abnormal at birth. And no one knows what health issues may be specific to primates. That’s why Anthony Perry of the University of Bath is cautious about using clones of genetically modified primates to study human disease.

“You wouldn’t use this approach with all these unknowns,” he says. “If you want to make a genetic model of disease, the last thing you want is use a model you don’t now much about.”

Zhongzhong and Huahua may soon tell us what how cloning affects primates. They are just two for now, but the Institute of Neuroscience expects more clones to be born in the coming months.


Source: https://www.theatlantic.com/science/archive/2018/01/china-monkey-clones-zhongzhong-huahua/551318/?utm_source=atltw


Video of Zhongzhong and Huahua CREDIT: Qiang Sun and Mu ming Poo,
Chinese Academy of Sciences

https://youtu.be/sAiuoTp-jVo




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