The Hydra – the key to everlasting life?

environmentregenerationagingimmortalitystem cells

Studying the freshwater polyp that can regenerate damaged cells The principle that all living things grow old eventually has always been a fact of life – till now. For nearly a decade, scientists at the Max Planck Institute for Demographic Research (MPIDR) have been studying the freshwater polyp Hydra, an organism whose mortality is constant and extremely low. For most species, including humans, the likelihood of dying increases as one gets older. Scientists regard this as an indicator of the physical decay within the body. However, the Hydra appears to have found a way to resist the physical deterioration of an aging body. The researchers involved in this study – MPIDR Director James Vaupel and Daniel Martinez (Pomona College, Claremont,California, USA) – have published their findings in the PNAS science journal. "Our findings are a fundamental challenge to common theories of the evolution of aging," said MPIDR demographer Ralf Schaible. According to these theories, all multicellular organisms capable of procreation would experience decay of its physical form as it grows old. Scientists measure this in two ways: Fertility rates that decrease significantly after a period of reproductive ability during early adulthood; and the increased risk of death after maturity. For humans, the possibility of dying within a year is as high as 50 percent for those in the advanced stage of life. However, for the Hydra, this rate remains relatively constant – at about 0.6 percent. What's more, the Hydra's reproductive ability does not diminish but remains constant as well. Studying (almost) eternal life in a basement lab In a ongoing long-term experiment, the researchers created artificial environments for the Hydra. Here, the organisms are free from threats and natural predators. Over nearly a decade, the researchers cared for about 1,800 Hydras in a laboratory situated in the basement of the institute in Rostock. Each Hydra lives in its own small glass bowl in a natural day-night cycle in cabinets that are maintained at a constant 18 degree Celcius. Thrice a week, a team of scientists and assistants feed them, using special pipettes to place tiny shellfish into the polyp's barely visible tentacles. Every polyp receives the same amount of food. Ever since the experiment started in March 2006, the Hydras have been reproducing asexually, and their descendants are subsequently placed in their own glass bowl and receive the same treatment as their parents. Fountain of youth Overall, there have been 3.9 million observation days of individual Hydra. Over this time, the number of natural deaths can be counted on a single hand. On average, this number stands at about five per year. The number of actual deaths is higher, when one considers instances when a Hydra perishes due to laboratory accidents like a polyp sticking to the lid of its bowl and drying up, or it having been dropped onto the floor. So, disregarding such unnatural causes of death, the scientists proceeded to assess the organism's mortality rate. It turns out that several generations of researchers would be insufficient to live out the Hydra. After 500 years, it was estimated that five percent of a cohort would still be alive. For two out of twelve of the cohorts in the study, the risk of death was so small that it would take 3,000 years until just five percent of the polyps remained. "Hydra apparently manages to keep its body young because it does not senesce by accumulating damages and mutations, as most other living beings do," said biodemographer Alexander Scheuerlein. He added that the organism was probably able to follow a special self-preservation strategy, due to the fact that its body and cellular processes were rather simple. For example, the Hydra can completely regenerate parts of its body that have been damaged or lost, due to a large number of stem cells. (Stem cells have the ability to develop into any part of the body at any time.) In addition, the Hydra can replace all its cells within only four weeks, so it regularly expels those cells that have been damaged or genetically mutated. As a result, any damage the Hydra suffers is swiftly repaired before it has a chance to get worse. 


이 기사는 자동 번역되었으며 약간의 오류가 포함될 수 있습니다. 의심스러운 점이 있으면 원문 영어 버전을 참조하십시오.

mares
Medical Evacuation Insurance for Remote Diving Trips
AI KB

외딴 지역 다이빙 여행을 위한 의료 후송 보험

원거리 다이빙 여행을 계획 중이신가요? 감압병부터 구조 지원에 이르기까지, 스쿠버 다이버에게 의료 후송 보험이 왜 중요한지 알아보세요.

1일 전
insta360
Insta360 Underwater Camera: SSI Partnership for Divers
AI KB

Insta360 Underwater Camera: SSI 파트너십

SSI와 Insta360은 파트너십을 체결하여 다이버들에게 Insta360의 Underwater 카메라 기술, 워크숍, 크리에이터 캠페인, 포토 & 비디오 (Photo & Video) 교육 프로그램을 제공한다고 발표했습니다.

1일 전
predrag_vuckovic
Women Freedivers: 10 Inspirational Female Freedivers
AI KB

여성 프리다이버: 영감을 주는 여성 프리다이버 10인

프리다이빙 기록을 경신하고, 해양 보전 활동을 주도하며, 수중 예술을 창조하고, 숨 참기 다이빙의 전통을 이어온 영감을 주는 여성 프리다이버 10명을 만나보세요.

3 일 전
mares
Types of Diving: 9 Advanced Diving Experiences for Seasoned Divers
AI KB

다이빙 유형: 노련한 다이버를 위한 9가지 고급 다이빙 체험

심해 다이빙과 난파선 다이빙부터 동굴 다이빙, 드리프트 다이빙, 야간 다이빙, 빙하 다이빙, 리브리더 다이빙, 수중 사진 촬영에 이르기까지, 노련한 다이버들을 위한 9가지 고급 다이빙 유형을 탐험해 보세요.

5 일 전
shutterstock-bell-davey-photography
Scuba Diving in Fiji: 9 Islands You Will Fall in Love With
AI KB

피지에서의 스쿠버 다이빙: 한눈에 반하게 될 9개의 섬

피지에서 스쿠버 다이빙을 꿈꿔보신 적 있으신가요? 타베우니의 부드러운 산호초 정원에서부터 베카의 세계적으로 유명한 황소상어 다이빙까지, 잊을 수 없는 9개의 섬을 탐험해 보세요.

8 일 전