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Chronic Diseases - The Role Autoimmune Disease And Mitochondrial Dysfunction Plays

Mitochondrial disease is associated with chronic diseases and immune system abnormalities. As a result, there have been worries raised about potentially irreversible processes linked to multiple organ disease syndrome, NAFLD, obesity, diabetes, and neurodegenerative diseases.

Author:Katharine Tate
Reviewer:Karan Emery
Oct 09, 202328.8K Shares400.3K Views
Mitochondrial disease is associated with chronic diseasesand immune system abnormalities.
As a result, there have been worries raised about potentially irreversible processes linked to multiple organ disease syndrome, NAFLD, obesity, diabetes, and neurodegenerative diseases.
Fatigue and other symptoms of chronic diseases can result from mitochondrial dysfunction, the essential organelle for cellular energy production.
Numerous chronic diseases, primarily autoimmune or neuroimmune, have mitochondrial dysfunction and impaired bioenergetics as a pathogenesis factor.
The hallmark of aging and chronic illnesses is mitochondrial dysfunction, which is characterized by a reduction in ATP synthesis and a loss of efficiency in the electron transport chain.

What Are Mitochondria?

Mitochondria, also referred to as the "Powerhouse of the Cell," are double membrane-bound organelles that are present in the majority of eukaryotic organisms. They are located inside the cytoplasm and serve as the "digestive system" of the cell.
They are essential for digesting nutrients and producing molecules that are high in energy for the cell. The mitochondria are where many of the biochemical processes necessary for cellular respiration happen. The Greek words "mitos" and "chondrion," which mean "thread" and "granules-like," respectively, are the source of the English word "mitochondrion." In the year 1890, a German pathologist by the name of Richard Altmann published the first description of it.

Mitochondrial diseases

What Are Mitochondrial Diseases?

Mitochondrial disease is a group of medical disorders caused by mutations in mitochondria, tiny organelles in nearly every cell in our bodies that generate 90% of the energy we need to live. Without healthy mitochondria, cells can't function properly, so failure can have serious consequences.
The effects of mitochondrial diseases on people can vary depending on which cells are impacted. This can make the condition difficult to diagnose because the symptoms frequently resemble those of other severe illnesses. As an illustration, a person with mitochondrial disease may experience seizures, exhaustion, vision and hearing loss, cognitive impairments, respiratory issues, or poor growth. Any organ or system of the body, including the brain, heart, lungs, gut, liver, and skin, can be impacted.
There are many different conditions that have the potential to cause secondary mitochondrial dysfunction and influence other diseases, including the following:
  • Cancer
  • Diabetes
  • Lou Gehrig’s disease
  • Muscular dystrophy
  • Alzheimer’s disease
  • Fatigue
Patients who suffer from secondary mitochondrial dysfunction do not have primary genetic mitochondrial disease, and as a result, they do not need to be concerned that their symptoms will become more severe over time.

What Are The Causes Of Mitochondrial Disease?

It is difficult to provide an accurate response to that question given that the prognosis is contingent on the severity of the mitochondrial disease in addition to other criteria. Some of those who have been afflicted, both children and adults, are now able to live relatively normal lives despite having mitochondrial disease thanks to the increased funding for research that is being done to find more effective treatments and ultimately a cure. In other instances, children might have trouble seeing, hearing, talking or walking normally. Affected children may not survive beyond their teenage years. Adult-onset multiple sclerosis can cause abrupt transitions from an active lifestyle to one that is limited by a debilitating illness in a relatively short amount of time.

Autoimmune Diseases - Causes, Symptoms, Treatments & More…

What Is Autoimmune Disease?

An autoimmune disease is a condition in which your immune system mistakenly attacks your body.
The immune system normally guards against germs like bacteria and viruses. When it senses these foreign invaders, it sends out an army of fighter cells to attack them.
Normally, the immune system can tell the difference between foreign cells and your own cells.
In an autoimmune disease, the immune system mistakes part of your body, like your joints or skin, as foreign. It releases proteins called autoantibodies that attack healthy cells.
Some autoimmune diseases target only one organ. Type 1 diabetes damages the pancreas. Other diseases, like systemic lupus erythematosus (SLE), affect the whole body.

What Are The Common Signs And Symptoms Of Autoimmune Disease?

The primary factor that brings on the symptoms of autoimmune diseases is inflammation, which can result in the destruction of both tissue and organs.
The following is a list of signs and symptoms that are typical of most autoimmune diseases:
  • Numbness and tingling in the hands and feet
  • Trouble concentrating
  • Recurring low-grade fever
  • Swollen glands
  • Stomach ache
  • Skin rashes
  • Pain and swelling in the muscles, connective tissues, and/or joints
Symptoms can vary in their degree of severity. Flare-ups are times when symptoms get worse, whereas remission is a period of little to no symptom activity.

Autoimmune Disease And Mitochondrial Dysfunction In Chronic Diseases

Chronic diseases are associated with anti-aging genes like Klotho, FOXO 3a, p66shc, and Sirtuin 1 (Sirt 1). The transcriptional dysregulation of other anti-aging genes (Klotho, p66shc, FOXO1/FOXO3a), which results in abnormal glucose, lipid, and amyloid beta metabolism and programmed cell death in a variety of cells and tissues, is mediated by Sirt 1 repression.
In many tissues, irreversible programmed cell death is relevant to anti-aging genes and their associations with autoimmune and chronic diseases. In populations around the world with autoimmune diseases, dietary effects with Sirt 1 downregulation speed up disease progression.
Because Sirt1 has been linked to accelerated mitochondrial apoptosis in chronic diseases, mitophagy is a concern. Due to Sirt 1's role in mitochondrial biogenesis and its connections to other anti-aging genes through p53 deacetylation, mitochondrial biogenesis as opposed to apoptosis is crucial.
The mitochondrial function of p53 is connected to genes that fight aging, and it maintains the immune system. The regulation of p53 and anti-aging genes by Sirt 1 may be the primary flaw with irreversible effects on cell biology and programmed cell death in both developing and developed nations. Sirt 1 is now linked to autoimmune disease.
In order to prevent uncontrolled immune reactions linked to Sirt 1 repression, which regulates HSP metabolism, plasma heat shock protein (HSP) analysis is now crucial. HSP builds up with autoimmune responses and mitophagy during normal aging, leading to age-related diseases.
A man wearing a white t-shirt drawing the heart shape in red using the heart beat line
A man wearing a white t-shirt drawing the heart shape in red using the heart beat line
For the early onset of chronic disease, abnormal core body temperature is of great concern. Sirt 1, a gene that fights aging, controls immune function and core body temperature. The suprachiasmatic nucleus in the brain, which controls core body temperature and is linked to peripheral organ disease, should be preserved in chronic diseases in order to prevent irreversible HSP-mediated programmed cell death.
Mitophagy is linked to irreversible programmed cell death in many organ diseases in global populations, and Sirt 1 is defective with elevated HSP levels involved in autoimmune disease. With increased HSP levels linked to autoimmune disease and mitophagy linked to irreversible programmed cell death in many organ diseases in global populations, anti-aging genes and their connections to autoimmune disease and mitophagy have now identified Sirt1 as being defective.

People Also Ask

What Is The Most Common Mitochondrial Disease?

The most prevalent mitochondrial myopathies are MELAS and Leigh syndrome together. Leigh syndrome typically has a poor prognosis, with survival times of only a few months after the onset of the illness.

What Are Some Common Mitochondrial Diseases?

Ptosis, external ophthalmoplegia, proximal myopathy and exercise intolerance, cardiomyopathy, sensorineural deafness, optic atrophy, pigmentary retinopathy, and diabetes mellitus are common clinical features of mitochondrial disorders.

Is Chronic Fatigue Syndrome A Mitochondrial Disease?

It doesn't seem that mutations in mitochondrial DNA are involved in the pathogenesis of ME/CFS, despite the fact that comprehensive mitochondrial DNA analysis is still lacking. The possibility that ME/CFS is a type of mitochondrial disease is therefore remote.

How Does Mitochondrial Disease Affect The Body?

A wide range of health issues, such as fatigue, weakness, metabolic strokes, seizures, cardiomyopathy, arrhythmias, developmental or cognitive disabilities, diabetes mellitus, impairment of hearing, vision, growth, liver, gastrointestinal, or kidney function, and more, can be brought on by mitochondrial disease.


As autoimmune disorders are expected to continue to rise in prevalence, it is crucial for naturopathic doctors to address the underlying causes of chronic diseases linked to the autoimmune process. The results of this article make it abundantly clear that more research is needed to determine whether it is feasible to use a multifaceted approach to treat autoimmune disease that includes mitochondrial support in addition to general inflammatory support.
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Katharine Tate

Katharine Tate

Karan Emery

Karan Emery

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