How to slow down ageing?

March 19, 2020

Healthy ageing has become one of the priorities of research in Europe. University of Tartu researchers looked for differences in the immune systems of young and old people. They focused on monocytes and found that the monocytes of the elderly do not seem to produce as much energy, and there is an increase in inflammation markers compared to younger people. Looking into the future, this research gives food for thought as to how to slow down age-related changes.

White blood cells or leukocytes include many cells with various tasks. To get a better understanding of exactly what these cells do, they need to be observed separately. Therefore, researchers at the University of Tartu Institute of Biomedicine and Translational Medicine together with colleagues from Tartu University Hospital and Estonian Genome Centre studied a specific white blood cell type - monocytes.

Monocytes comprise about 5-10% of all white blood cells in human blood. As with all other leukocytes, they originate from the hematopoietic cells of bone marrow, but they have special properties which help them fight viruses and other pathogens. They are constantly changing through life together with general changes in the organism.

According to a professor of molecular immunology at the University of Tartu, Pärt Peterson, links between ageing and monocytes have been found before. "For example, they are known to be associated with inflammatory processes occurring in the body. A link between monocytes and vascular calcification or atherosclerosis is also known," said Peterson.

Vascular calcification means that, due to the deposition of dead cells, cholesterol, fatty acids and lipids, plaques are formed on the walls of arteries. Over years, these plaques become denser and make blood vessels narrower. As a result, blood flow in blood vessels becomes restricted. "Calcification is a long-term and complex change in the walls of blood vessels, but it is the monocytes that affect the inflammation originating from the walls of blood vessels and accumulate in atherosclerotic plaques," explained Peterson.

Primarily based on this background information, the researchers wanted to study which changes have occurred in the monocytes of young people, and which in the monocytes of the elderly. "We found that the expression of many genes varies in the monocytes of elderly people. Changes have mainly occurred in the genes related to protein synthesis and in the work of mitochondria, i.e. the power plants of cells. It might be said that the monocytes of older people do not seem to produce as much energy as the cells of younger people," noted the professor.

There was also a visible increase in the intracellular inflammation markers in older people, which is probably accompanied by a general increase in inflammation levels. There are also other intracellular metabolic changes, as a greater proportion of some lipids was noted in elderly people, for example. Many lipids are an important and natural part of cell membranes, but according to Peterson, this may lead to the idea that the excessive accumulation of lipidic compounds in monocytes may be related to the plaques forming on the walls of blood vessels, and thus to atherosclerosis.

"Time will show whether we will be able to do something to slow down age-related changes. This study at least gives an idea as to which direction we should look to next. In terms of the future, it would be a big achievement if we were able to postpone or even avoid the process of vascular calcification," said Peterson.

According to the scientist, new practical solutions will definitely be added in the future, taking into account that healthy ageing has become one of the priorities of research in Europe. Several European countries, including Denmark and the Netherlands, have already created specialised institutes and centres for solving the issues related to the ageing society.

Peterson noted that conducting such basic research studies in Estonia is convenient, because due to the small size of the country, we have very good contacts and cooperation possibilities, broad-based genetic data and great possibilities for developing digital health care.
-end-


Estonian Research Council

Related Blood Vessels Articles from Brightsurf:

Biofriendly protocells pump up blood vessels
In a new study published today in Nature Chemistry, Professor Stephen Mann and Dr Mei Li from Bristol's School of Chemistry, together with Associate Professor Jianbo Liu and colleagues at Hunan University and Central South University in China, prepared synthetic protocells coated in red blood cell fragments for use as nitric oxide generating bio-bots within blood vessels.

Specific and rapid expansion of blood vessels
Upon a heart infarct or stroke, rapid restoration of blood flow, and oxygen delivery to the hypo perfused regions is of eminent importance to prevent further damage to heart or brain.

Flexible and biodegradable electronic blood vessels
Researchers in China and Switzerland have developed electronic blood vessels that can be actively tuned to address subtle changes in the body after implantation.

Lumpy proteins stiffen blood vessels of the brain
Deposits of a protein called ''Medin'', which manifest in virtually all older adults, reduce the elasticity of blood vessels during aging and hence may be a risk factor for vascular dementia.

Cancer cells take over blood vessels to spread
In laboratory studies, Johns Hopkins Kimmel Cancer Center and Johns Hopkins University researchers observed a key step in how cancer cells may spread from a primary tumor to a distant site within the body, a process known as metastasis.

Novel function of platelets in tumor blood vessels found
Scientists at Uppsala University have discovered a hitherto unknown function of blood platelets in cancer.

Blood vessels can make you fat, and yet fit
IBS scientists have reported Angiopoietin-2 (Angpt2) as a key driver that inhibits the accumulation of potbellies by enabling the proper transport of fatty acid into general circulation in blood vessels, thus preventing insulin resistance.

Brothers in arms: The brain and its blood vessels
The brain and its surrounding blood vessels exist in a close relationship.

Feeling the pressure: How blood vessels sense their environment
Researchers from the University of Tsukuba discovered that Thbs1 is a key extracellular mediator of mechanotransduction upon mechanical stress.

Human textiles to repair blood vessels
As the leading cause of mortality worldwide, cardiovascular diseases claim over 17 million lives each year, according to World Health Organization estimates.

Read More: Blood Vessels News and Blood Vessels Current Events
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.