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Week 3 Assignment: Mitochondria and Their Role in Cellular Function and Disease

The fascinating mitochondria are necessary for energy generation and other biological activities. Based on his brother’s mitochondrial problem, Brian discusses mitochondrial DNA and how mitochondrial defects may affect cell function, Leber Hereditary Optic Neuropathy (LHON). In this discussion, I will go over the definition of mitochondrial DNA, the primary roles of mitochondria, the makeup of the mitochondrial membrane, and my theory of how faults in mitochondria might cause the death of optic nerve cells. My investigation will be predicated on the given circumstances.

Mitochondrial DNA and Its Significance:

Mitochondrial DNA (mtDNA) is a genetic substance in the mitochondria that differs from the nuclear material inside the cell. Unlike heredity in the paternal and maternal nuclear DNA, mtDNA is always maternally inherited. Genetic materials must be found inside the mitochondria since these cells have their mechanisms for protein synthesis and energy production (Casanova et al., 2023). This autonomy is believed to have arisen from a very ancient symbiosis between a eukaryotic cell and a free-living bacterium, which further developed into the modern mitochondrion.

By stating something about a mutation in “one of the genes” within mitochondrial DNA, Brian implies that a gene whose variant causes LHON is found. This is very important because the mitochondrial DNA codes for many proteins crucial in oxidative phosphorylation, a process by which cells generate adenosine triphosphate (ATP), their energy currency.

Main Functions of Mitochondria

The mitochondria are termed the “powerhouses” of a cell because they drive ATP production through oxidative phosphorylation. Apoptosis (programmed cell death), calcium regulation, and fatty acid metabolism are other functions carried out by mitochondria besides energy production. Their interactions with other organelles, the nucleus, and the external environment facilitate and impact communication on all physical levels (Casanova et al., 2023). The capacity of the mitochondria to adjust is a reflection of their dynamism, as well as the central role they play in ensuring cell homeostasis.

Mitochondrial Membrane Composition and Comparison with Eukaryotic Cell Membrane

The mitochondrial membrane consists of two main components: the OMM and IMM. OMM has porin channels that allow the passage of small molecules, but IMM does not, allowing for free flow to most ions and molecules. The main components of the mitochondrial membrane are phospholipids, proteins, and cholesterols.

In contrast, the plasma or eukaryotic cell membrane encloses a whole cell. It is mainly a phospholipid bilayer with the incorporated proteins. The cell membrane acts as a fence, restricting the entry and exit of substances into or from the cell. It also has a key role in the cell signaling, adhesion, and integrity of cells.

Hypothesis on Mitochondrial Defects and Optic Nerve Cell Death:

Although the precise pathway that connects mitochondrial abnormalities to cell death in the optic nerve perspective is not clearly understood, a hypothesis may be developed based on what. Any progressing multisystem illness should include mitochondrial dysfunction in the differential diagnosis (Chinnery, 2021). Mitochondria are necessary for ATP production, so the lack of oxidative phosphorylation might result in energy loss from optic nerve cells that are ravenous eaters and cause light signals to be transported to the brain.

Moreover, oxidative stress occurs when the mitochondrial dysfunction produces ROS. The optic nerve cells may go into apoptosis as a protective response because they are more susceptible to oxidative damage and eliminate the damaged cells.

Finally, the mitochondria play a crucial role in cellular function, and the defects of these organelles have great consequences, as noted with LHON diseases. Knowing all the details of the mitochondrial structure and functioning is crucial for understanding the phenomena behind cell health or disease.

References

Casanova, A., Wevers, A., Navarro-Ledesma, S., & Pruimboom, L. (2023). Mitochondria: It is all about energy. Frontiers in physiology14, 1114231. https://doi.org/10.3389/fphys.2023.1114231

Chinnery, P. F. (2021, July 29). Mitochondrial Disorders Overview. Nih.gov; University of Washington, Seattle. https://www.ncbi.nlm.nih.gov/books/NBK1224/

 

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