研究者發(fā)現(xiàn),，與細胞性命的相關的酵素端粒酶（telomerase）與個體體重有關。這項由美國明尼蘇達州羅徹斯特大學University  of  Rochester的研究者Vera  Gorbunova教授所帶領的團隊于今天在Aging  Cell期刊中發(fā)表成果,，首次探討人類以外的生物其端粒酶表現(xiàn)意義。  

        細胞染色體端頂?shù)亩肆Ｙ|（telomeres）在每次分裂后就會縮短,，紀錄并控制細胞分裂次數(shù)約在60次左右后不再分裂,。端粒酶能夠維持端粒質的長度和染色體的穩(wěn)定；近年來認為此酵素與細胞的壽命及導致癌癥有密切關系,。  

        「老鼠的所有細胞均會固定表現(xiàn)端粒酶,，」Gorbunova教授表示，「因此具有驚人的復原能力,?！褂捎诶鲜筮@種生物在細胞發(fā)生傾向癌癥變異之前就壽命將近，很難藉由正常的觀察來下是否與癌癥相關的結論,；Gorbunova教授在探討了15種體型不同的生物后,，發(fā)現(xiàn)體重越重的物種，端粒酶的越傾向不活化,。這應當是演化自然的將細胞更多的物種其罹癌率降低的一種機制,。  

        研究者表示，這項發(fā)現(xiàn)后面的意義仍待近一步探討,。但這項發(fā)現(xiàn)無疑的將端粒酶混沌未明的立場又揭開一些,。「至于老鼠,，他們應該比較需要對抗貓的基因,。」Gorbunova教授笑說,。

英文原文：

Body mass correlates with telomerase expression

An organism's body mass, rather than lifespan, correlates with the expression of telomerase, an enzyme that can lengthen cell life and increase cancer, according to new research in rodents published in the journal Aging Cell.

Telomerase rebuilds chromosomal ends that erode over time, and its activity gives cells longer life. Whereas short-lived mice express telomerase, long-lived humans shut down its expression in somatic cells.

"Mice express telomerase in all their cells, which helps them heal dramatically fast," said Vera Gorbunova, a researcher on aging at the University of Rochester who headed the study. "It would be nice to have that healing power, but the flip side of it is runaway cell reproduction -- cancer," she said.

The researchers hypothesized that telomerase repression, an adaptation in long-lived organisms, evolved to suppress tumors. To test this hypothesis, they investigated telomerase activity of 15 rodents from across the globe, ranging from tiny field mice to the 100-pound capybara from Brazil. Lifespans ranged from three years for the mice to 23 or more for common backyard squirrels.

No correlation between telomerase and longevity was observed, a result Gorbunova said she expected. Body mass correlated with telomerase activity across the 15 species. The capybara, nearly the size of an adult human, did not express telomerase, which the authors concluded was a mechanism to prevent cancer.

However, researchers aren't ready to throw away the lifespan hypothesis. "The product of both parameters [body mass and lifespan] could reflect the relationship better than the body mass alone," said Jirí Fajkus, telomere evolutionary biologist at Masaryk University, Czech Republic, who was not involved in the current study.

"Telomerase activity data should also be taken with reasonable caution since the activity measured in vitro in cell extracts need not necessarily reflect the real performance of telomerase inside cells," he added in an e-mail to The Scientist.

There is also the question of why telomere length, unlike telomerase, did not correlate with body mass. "It may be that telomerase activity is varying at the time of measurement, and hence no changes in immediate telomere length could be observed," suggested Barry Flanary, vice president of Phoenix Biomolecular Corporation, a biotech startup focused on developing telomerase-based therapies for age-related diseases.

Jerry Shay, a telomere biologist at the University of Texas Southwestern Medical Center at Dallas, pointed out that there is actually little supporting data for the lifespan hypothesis. "Nobody has done the critical study, which is a big survey [of telomere length and telomerase] that looks at all the animals in multiple lineages, up and down the whole evolutionary tree," he said.

Shay, who was not involved in the current study, told The Scientist that the telomerase-body mass connection is "very unlikely to be a general phenomenon across species...because there are exceptions." One example is the muntjac deer, which represses telomerase yet has a relatively short life and small body mass. Further, rabbit species generally do not repress telomerase though their lifespans range from short to long. Even Gorbunova noted an exception to the lifespan hypothesis in the common gray squirrel, which lives two decades yet expresses telomerase in great quantity.

Regardless of the exceptions, Gorbunova said the new findings raise another interesting question: How do animals far larger than humans, such as 250,000-pound whales, keep cancers at bay? "It may be that whales have a cancer suppressant that we've never considered," said Gorbunova. "I'd like to find out what kind of telomerase expression they have, and find out what else they use to combat cancer."