Every cell in the body is protected by a membrane. Cell membrane creates a protective barrier that shields the outside elements from the internal components of the cell, organelles. By understanding the cell membrane and what it needs, we can support our cells and cell membranes and consequently optimize our overall wellness.

The cell membrane has been historically characterized as having a fluid-mosaic model which allowed for selective permeability of various agents into the cell. Importantly, cell membrane integrity is essential to cell viability and function. Cell membranes are responsible for maintaining electrochemical gradients with a negatively charged intracellular composition and positively charged extra-cellular environment. This gives rise to what is known as the Resting Membrane Potential (RMP) and is responsible for every single physiological event that takes place within the body.  Additionally, these dynamics are a key factor in the rate of aging especially within brain cells, known as neurons.

Cell membrane structure and its function.
Cells are the building blocks of life. We each have trillions of cells throughout our bodies that provide structure for the human body, take in nutrients, convert nutrients into energy, and perform specialized functions. The cell membrane, also known as the plasma membrane, is the envelope lining of the cell that shields the cell but carries important functions.

Cell membrane provides vital functions in the maintenance of cell activities including:
• They protect from toxic substance out of the cell
• Contain pathways that allow specific molecules to enter and leave the cell such as ions, nutrients, waste via transmembrane proteins.
• Separate vital metabolic processes conducted within little organs known as organelles.
• Communication
• Signal generation

Cell membranes are made up of proteins, and fats, also known as lipids. Lipids form the building blocks of cellular membranes with phospholipids being the most abundant type of lipid found in the membrane. Phospholipids are what support the cell membranes unique structure due to their hydrophobic (non-polar) tails and hydrophilic heads (polar). This means that heads of the molecules face outward and are attracted to water whereas the tails face inside away from the water allowing them to arrange themselves in a sphere form in aqueous solutions.

Cholesterol is another cell membrane component.  We often only hear about how cholesterol can build up in your arteries and cause heart disease but it’s important to acknowledge its function. Biologically speaking, cholesterol is critical for cell function and plays a vital role in membrane fluidity which is the ease with which lipids move within the bilayer of the cell membrane. About 25-30% of lipid in the cell membrane is cholesterol.

Role of Phospholipids
As previously mentioned, phospholipids play a critical role in insulating cell membranes. Two of the most important outer and inner leaflet phospholipids are phosphatidylcholine (PC) and Phosphatidylserine (PS). Supplementing with phospholipids is a part of a clinical strategy known as membrane lipid replacement and is a prudent measure in maintenance of overall cellular health and aging.

Role of lipids
In addition to phospholipid compounds, there is a select class of lipids, known as the Eicosanoids, that are liberated from the membrane, metabolized into an intercellular communication and information system by their prostaglandin regulatory activity. Prostaglandins, thromboxanes, and leukotrienes mediate inflammatory signaling and coagulation pathways within the blood.

Role of Protein
Proteins are the second major component of cell membranes. Proteins mostly contribute to the function of cell membranes but also play a small role in forming the structure of the membrane.

There are 3 main types of membrane proteins
1. Integral Membrane Proteins: also known as transmembrane proteins allow molecules such as nutrients and waste to enter and leave the cell and also transmit signals between the cells internal and external environments.
2. Peripheral Membrane Proteins: form a temporary attachment with the cell membrane by allowing the proteins to attach, detach, and reattach.
3. Lipid-anchored Proteins: anchor the protein to either side of the cell membrane promoting the function of the protein to which it is anchored to.

Proteins are what help the cells interact with its environment but also help transporting substances across the cell membrane.  

How to optimize cell membrane health

Now that we have a better understanding of the cell membrane structure, we can see how cell membrane integrity influences our overall health. Optimal health begins with an optimally functioning cell membrane structure. It is important to maintain a nutrient rich diet, antioxidants, and healthy fatty acids so that the cell membrane remains flexible to transport nutrients into your cells while eliminating the cells of waste. Additionally, a nutrient rich diet and healthy fatty acids is necessary for the nervous system and cardiovascular system and more.

What else can you do? Follow us along as we take a deep dive on cell membrane health during our Cell Membrane Series.

More about The Institute for Human Optimization

At the Institute for Human Optimization, we are committed to helping you create a personalized plan for living your longest, healthiest life possible. My team and I leverage the most cutting-edge advances in genetic testing, nutritional analysis, and functional medicine to get to the root biological imbalances that cause aging.

The Institute for Human Optimization was created with the intention of pursuing a highly personalized approach to longevity medicine to help enhance healthspan. Where lifespan is the actual number of years we’re alive, healthspan is how many of those years are spent in health and wellness.

We believe that a long healthspan – not just a long lifespan – is the most important thing you can cultivate. A long healthspan means you don’t miss out on life as you get older. It means remaining independent and having the vitality to travel and see the world.  A long healthspan means that you can be there – in full body and mind – for the people who need you the most and that every day will feel like a gift.

We know that each person is truly unique. From DNA to iris, we all possess a blueprint that is genetically inherited and environmentally influenced. By gaining a deeper appreciation for the person on a molecular level and addressing the root causes driving disease, we can help promote optimized health through our unique scientific, N of 1, approach to individualized care.

The Institute for Human Optimization provides the most comprehensive, data-driven, personalized approach to wellness. It is:

·   Predictive – We use genomics and advanced biomarker testing to risk stratification and empowerment.

·   Personalized – We use data-driven health information to curate actionable change for disease mitigation and prevention.

·   Preventive – We utilize highly individualized programs tailored to your unique genomic blueprint.

·   Participatory – We empower engagement in personal choices, which allows for improved outcomes and enhanced results.

I am so excited about the possibility to support you on this cutting-edge journey to extend your lifespan AND your healthspan. Click here to schedule Your Longevity Equation Epigenetic Consult! Can’t wait to meet you!

Our environment can drive disease or mitigate disease risk. As we look at medicine through the lens of a systems biology approach, most disease is a result of a complex interchange between genetic and environmental factors. 

.  .  .

The exposome is the sum of all the exposures of an individual in a lifetime and how those exposures relate to health. This term originated by Dr. Wild in 2005 introduced the concept to create awareness of the need to look at environmental impacts in epidemiological studies. 

The exposome makes up of all exposures from conception to death.

There are three areas of the exposome

  1. Internal Factors
  2. Specific External actors
  3. General External Factors

There are studies that show that even from conception, there is a link between exposures throughout pregnancy and fetal growth. When we look at the skin exposome, there are various internal and external factors that show a clinical presentation of skin aging. 

There are various types of environmental exposures that influence our health and aging including but not limited to:

  • Air quality
  • Tobacco
  • Sun Radiation
  • Pollution
  • Stress
  • Nutrition
  • Sleep Quality
  • Temperature
  • Heavy Metals
  • Mold
  • Pesticides

Exposures are from our external environment as listed above but also are a result of our internal biological processes. Internal exposures rely on the omics of medicine. You can learn more about the omics of medicine with our blog series linked here. Utilizing omics data we can measure internal exposures and explore how the exposome is linked with disease.

Exposome and Cellular Ageing

If you recall, in our Hallmarks of Aging series, we discuss cellular senescence and its role in aging.  Studies have shown that environmental exposures influence telomere length which is an indicator of cellular aging. Telomeres are the caps at the ends of the strands of DNA called chromosomes, which house our genomes. Telomere shortening is one of the most recognized biomarkers of aging. As cells divide, oxidative stress is considered one of the main factors contributing to telomere shortening. By the exposome influencing the shortening of telomeres, which in turn accelerates the process of aging by affecting our biological pathways that result in health decline. 

Application of Exposome in Medicine

Exposome research is currently being developed to better understand an individual’s health, recommending therapies, and how they will respond to such therapy. This concept targets your individual conditions that influence your health. These exposures integrate your social science, environmental, occupational on a cumulative individual level. From a medical perspective, when we look at the microbiome, which plays a critical role on the exposome, that is unique to each individual due to the variability in bacterial diversity for various environments. 

As you can imagine, there are complex challenges in accurately measuring the exposome of an individual. Additionally, your exposome can change throughout your lifetime which makes its analysis a life-long assessment in theory. These concepts have led to an approach that integrates the exposome and the genome known as the exposome-genome paradigm. By analyzing an individual’s exposome and genome, now leads to better insight for disease prevention.

The biological impact of the exposome is improving our understanding of the connection between exposures and health to help mitigate adverse health outcomes across the lifespan. Genetics only accounts for about 10% of disease leaving the rest to be related to environmental causes.  Exposome information is a key step in precision medicine and precision environmental health monitoring. 

More about The Institute for Human Optimization

The Institute for Human Optimization we believe that Omics-based medicine and systems biology taking into account your exposome will realize a new approach to practicing medicine – personalize, predicative, and precise medicine. We are committed to helping you create a personalized plan for living your longest, healthiest life possible. My team and I leverage the most cutting-edge advances in genetic testing, nutritional analysis, and functional medicine to get to the root biological imbalances that cause aging.

The Institute for Human Optimization was created with the intention of pursuing a highly personalized approach to longevity medicine to help enhance healthspan. Where lifespan is the actual number of years we’re alive, healthspan is how many of those years are spent in health and wellness.

We believe that a long healthspan – not just a long lifespan – is the most important thing you can cultivate. A long healthspan means you don’t miss out on life as you get older. It means remaining independent and having the vitality to travel and see the world.  A long healthspan means that you can be there – in full body and mind – for the people who need you the most and that every day will feel like a gift.

We know that each person is truly unique. From DNA to iris, we all possess a blueprint that is genetically inherited and environmentally influenced. By gaining a deeper appreciation for the person on a molecular level and addressing the root causes driving disease, we can help promote optimized health through our unique scientific, N of 1, approach to individualized care.

The Institute for Human Optimization provides the most comprehensive, data-driven, personalized approach to wellness. It is:

·   Predictive – We use genomics and advanced biomarker testing to risk stratification and empowerment.

·   Personalized – We use data-driven health information to curate actionable change for disease mitigation and prevention.

·   Preventive – We utilize highly individualized programs tailored to your unique genomic blueprint.

·   Participatory – We empower engagement in personal choices, which allows for improved outcomes and enhanced results.

I am so excited about the possibility to support you on this cutting-edge journey to extend your lifespan AND your healthspan. Click here to schedule Your Longevity Equation Epigenetic Consult! Can’t wait to meet you!