Tag Archives: ion channels

Good news: Baths can be less exhausting than showers

Yes, autoimmune disease can be exhausting and it can be confusing for other people to understand because autoimmune disease may not have obvious symptoms. A person with an autoimmune disorder may suffer from severe pain or other symptoms throughout their body but not have lab tests that show obvious problems to a physician. Autoimmune antibodies are known for a few types of disorders and those can be screened for if the lab test is ordered but not all autoimmune antigens have been identified.

Magnesium deficiency may be an underlying issue though for many/most autoimmune disorders, so taking an Epsom salt bath can provide improved magnesium absorption through the skin and allow a person to sit down to wash their hair and shave their legs (if desired). No promises though, that a nap might not still be desired after the exertion of bathing while sitting, or before the exertion of blow-drying long hair.

Fibromyalgia and chronic pain problems may have autoimmune origins [3] and/or may have to do with our cell’s energy workhouses, the mitochondria, running out of their preferred energy source — magnesium. They use calcium but it can overwork them to the point of cell death. In normal physiology membrane transport systems, also called ion channels, carefully control how much calcium is allowed into the interior of mitochondria. Something called ruthenium-red (RuRed) and magnesium ions are involved in controlling the entry of calcium ions through the transport channels. [1, 2]

A deficiency of magnesium may allow excess calcium to enter the mitochondria and cause overexcitation and even lead to death of the mitochondria.

Mitochondria are actually similar to bacteria and have their own DNA that in nature always matches the mother’s mitochondria’s DNA but that is a different story.

(RuRed) – not a nutrient I didn’t know about – it’s a dye used in labs that selectively binds with some things but not others so it is used for identification purposes with unknown samples — roughly.

Disclaimer: Opinions are my own and the information is provided for educational purposes within the guidelines of fair use. While I am a Registered Dietitian this information is not intended to provide individual health guidance. Please see a health professional for individual health care purposes.

  1. http://ajpcell.physiology.org/content/287/4/C817
  2. https://www.researchgate.net/publication/20680823_Ruthenium_red_and_magnesium_ion_partially_inhibit_silver_ion-induced_release_of_calcium_from_sarcoplasmic_reticulum_of_frog_skeletal_muscles
  3. https://www.ncbi.nlm.nih.gov/pubmed/24435355

Cheerful Juice lives up to its name

Cheerful Juice lives up to it’s name as a post debate pick me up. ii had missed having some earlier in the day and was fairly cranky and tired after watching the Presidential debate Wednesday night. Even though it had gotten later, past midnight, I was cranky enough that I remembered forgetting my Cheerful Juice.

So positive mood within half a glass, within 20 minutes, boost of energy by the full cup, within 50 minutes (now typing this instead of sleeping)– suggesting that for my genetic structure I do need the two gram dose — ~half a teaspoon, half a glass. The five gram dose, full teaspoon, full glass, might be a little more than I need at one time. Having a glass in the morning and evening has been beneficial on the few days that I’ve tried that, so simply spitting the teaspoon serving into two half teaspoon servings might be effective without causing extra symptoms.

The burst of energy suggests overactivity might be occurring. Aspartic acid and glutamate are called excitotoxins because they can signal so much activity in a cell that it leads to death of the cell due to overwork. Glycine and methionine are more active as inhibitory messenger chemicals so they may not have the same risk as there would be with large doses of aspartic acid or glutamate, especially in combination with magnesium deficiency.

Magnesium is an electrically active mineral that works from within the cell to provide energy for membrane channels that in normal health would control what is allowed into the cell – too much glutamate or aspartic acid or calcium simply wouldn’t be allowed in if enough magnesium was available to power the electric doorways in the cell membranes, (ie: magnesium selective ion channels).

I’m keeping notes because this is a new area of study, there isn’t a handbook for dietary advice for all the genetic defects in metabolism. Some more deadly ones are known and screened for at birth so the infant can be put on a protective diet as soon as possible. PKU, phenylketonuria is the most well known example of genetic defects that can be managed with dietary changes.

[See a previous post, Glycine is an amino acid with neurotransmitter roles, for more details.]

It’s past 1:00am now, I’ll try to go to sleep and have some cheerful dreams — about an Amendment to the Constitution overturning Citizens United — or some other cheerful topic.

/Disclaimer: This information is provided for educational purposes within the guidelines of fair use. While I am a Registered Dietitian this information is not intended to provide individual health guidance. Please see a health professional for individual health care purposes./