How to protect the powerhouse of your cells?
Often called “cellular powerhouse”, mitochondria are cellular organelles responsible for most of the energy production we need to live. They play a fundamental role in health.
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Often called “cellular powerhouse”, mitochondria are cellular organelles responsible for most of the energy production we need to live. They play a fundamental role in health.
Each time a cell divides, part of its chromosomes’ protective caps – the telomeres, are lost. These caps are also sensitive to inflammation and oxidative stress, which can further promote their shortening. This reduction of length leads to the cessation of cell division and thus cellular senescence and cellular death. This process, along with other factors, causes aging, but there are ways to slow it down.
Premature aging is associated with immune system dysregulation, of which the most evident characteristics are increased levels of proinflammatory markers. Therefore, inflamm-aging is believed to stand at the origin of most of the diseases such as cancer, autoimmune disorders, and chronic inflammatory diseases.
Many of us may feel in need of restoring intestinal health or wiping out some tiredness. Explore our nutritionists’ tips about plant-based food to filling you with energy and balance this summer. Eating a plant-based diet can help us balance our body fluids and fight inflammation, improving our sleep and ultimately boosting our immune system.
Recent advances in science have led to a growing body of evidence showing that aging is inextricably linked to “senescence”, the process by which a cell ages and stops dividing but does not die. Over time, large numbers of these cells grow throughout the body. They remain active and release processes that cause inflammation and may damage nearby healthy cells.
Holistic Health supplements are about thoroughly science-backed solutions. A lifescience study about the CLP Holistic Complex shows that it has beneficial effects by decreasing the rate of telomere shortening and preserving telomere length under normal conditions, thus contributing to longevity.