The Brain Hypometabolism Hypothesis Part 79: The NMDA Receptor


NMDA Receptor by RicHard-59 (CC BY SA 3.0)

The NMDA Receptor is an ion channel which is activated by Glutamate. The NMDA Receptor is involved in the response of neurons to ischaemia. The NMDA Receptor is also involved in memory formation in a process referred to as Long Term Potentiation.

In the Brain Hypometabolism Hypothesis there is a focus on the relationship between energy metabolism and neuropathology. The NMDA Receptor and associated metabolic pathways offer a tangible connection between energy metabolism and neuropathology.

Brain Hypometabolism Hypothesis

The Brain Hypometabolism Hypothesis focuses on energy metabolism. More specifically the hypothesis states that

Energy hypometabolism in the brain leads to neuropathology

What is Metabolism?


Human Metabolism by Frozen Man (CC BY 4.0)

Metabolism can be defined as the chemical processes that occur in living organisms. There are three types of metabolic processes

(a) Generation of energy

(b) Generation of basic chemicals including fatty acids, amino acids and sugars

(c) Elimination of Nitrogen waste products

Key Pathways in Energy Metabolism

There are several key pathways in energy metabolism in humans. Several pathways result in the formation of Acetyl CoA from fatty acids, amino acids and glucose. Acetyl CoA is utilised in the Citric Acid Cycle. The Citric Acid Cycle generates ATP. The Citric Acid Cycle also generates NADH which is used in Oxidative Phosphorylation which utilises Oxygen as an electron acceptor.

What is Glycolysis?


Glycolysis is one of the key pathways for energy metabolism in the human body. In this metabolic pathway the molecule Glucose is converted into Pyruvate. This pathway generates energy in the form of ATP. This pathway however does not use oxygen although the products generated are metabolised using oxygen. This is relevant to the bigger picture of energy metabolism in the brain.


Acetyl CoA Space Filling Molecule by Benjah-bmm27 (Public Domain)

What is Acetyl Coenzyme A?

Acetyl Coenzyme A is an important molecule for many pathways involved in energy metabolism. Acetyl Coenzyme A is derived from

(a) Glucose via the Glycolysis pathway

(b) Amino acids via Acetoacetyl-CoA, Pyruvate and directly through multiple pathways

(c) Fatty acids via Beta-oxidation

Vitamin B5 is required for the synthesis of Acetyl CoA.

What is the Citric Acid Cycle?

The Citric Acid Cycle (CC BY 3.0) by Narayanese, WikiUserPedia, YassineMrabet, TotoBaggins, Wadester16

The Citric Acid Cycle is one of the main energy metabolism pathways in humans. Acetyl Co-A which is generated from other pathways is utilised in the Citric Acid Cycle. The Citric Acid Cycle has a number of properties

  1. Generation of energy in the form of ATP
  2. Generating NADH which is utilised in oxidative phosphorylation
  3. Citric Acid is regenerated
  4. Carbon Dioxide is produced

The Citric Acid Cycle takes place in the Mitochondria.

What is Oxidative Phosphorylation?

Oxidative phosphorylation is a series of chemical reactions in which electrons are transferred, nutrients are metabolised and ATP is formed. Nutrients are oxidised and the donated electrons are processed in the electron transport chain. ATP formation via ATP Synthase utilises the electron/proton gradient across the mitochondrial membrane according to the Chemiosmotic Theory.

What is the Chemiosmotic Theory?

The Chemiosmotic Theory is central to the understanding of Oxidative Phosphorylation. Proposed by Dr Peter Mitchell in 1961, the theory states that the energy for ATP generation derives from electrical and chemical gradients resulting from the transfer of electrons and protons across the mitochondrial membrane in the electron transport chain.


Ball and Stick Model of ADP by Jynto (Public Domain)

What is ADP?

Adenosine Diphosphate (ADP) is a precursor of ATP. ATP is synthesised from ADP and inorganic Phosphate by the enzyme ATP Synthase. ADP contains Adenine and Ribose both of which are also found in RNA.

What is ATP Synthase?


ATP Synthase by ALoopingIcon using QuteMol (CC BY 2.5)

ATP Synthase is an enzyme that combines inorganic phosphate and Adenosine Diphosphate to form Adenosine Triphosphate (ATP). This in turn is used as a source of energy.

What is Complex I?


Complex I by Tim Vickers (Public Domain)

The first step in Oxidative Phosphorylation in humans is the transfer of electrons from NAD via Complex I. The structure of Complex I is shown above. Complex I is also known as NADH-coenzyme Q Oxidoreductase. NADH donates electrons to Complex I in a reaction requiring Coenzyme Q10. The electrons are further transferred via Flavin Mononucleotide and Iron-Sulfur Complexes before the transfer of proteins into the intermembrane space.

What is NAD+?


NAD+ by Ben Miller (Public Domain)

Nicotinamide Adenine Dinucleotide (NAD) has a number of properties

  1. NAD exists in a reduced (NADH) and oxidised (NAD+) form
  2. NAD is a key molecule in oxidative phosphorylation
  3. NAD is formed by two nucleotides

What is Complex II?


Complex II by FVasconcellos and TimVickers (Public Domain)

Complex II is involved in Oxidative Phosphorylation and is also known as Succinate Dehydrogenase. Succinate is oxidised (donating electrons) to form Fumarate. The donated electrons enter the electron transport chain.


Complex III by FVasconcellos and TimVickers (Public Domain)

What is Complex III?

Complex III is also known as Q-cytochrome C Oxidoreductase. Complex III contains Cytochromes. Ubiquinol (a reduced form of Coenzyme Q10) donates electrons to Cytochrome C. Electrons are transferred between molecules in a circuit which causes four protons to be transferred across the Mitochondrial membrane for every 2 electrons. This forms part of the electron transport chain.

ATP Synthase is an enzyme that combines inorganic phosphate and Adenosine Diphosphate to form Adenosine Triphosphate (ATP). This in turn is used as a source of energy.


Complex IV by FVasconcellos and TimVickers (Public Domain)

What is Complex IV?

Complex IV is also known as Cytochrome C Oxidase. Complex IV contains Heme groups, Copper, Magnesium and Zinc. Complex IV facilitates the transfer of electrons to Oxygen in a reaction which results in the formation of water.

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Disclaimer: The comments made here represent the opinions of the author and do not represent the profession or any body/organisation. The comments made here are not meant as a source of medical advice and those seeking medical advice are advised to consult with their own doctor. The author is not responsible for the contents of any external sites that are linked to in this blog.

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