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MHC I Molecules

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Microbiology

Definition

MHC I molecules, also known as major histocompatibility complex class I molecules, are cell surface proteins that play a crucial role in the immune system's ability to recognize and respond to foreign or abnormal cells. These molecules are responsible for presenting peptide fragments derived from intracellular proteins to cytotoxic T cells, enabling the detection and elimination of infected or cancerous cells.

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5 Must Know Facts For Your Next Test

  1. MHC I molecules are expressed on the surface of all nucleated cells in the body, allowing the immune system to monitor the health and integrity of every cell.
  2. The MHC I complex is composed of a heavy chain and a light chain (β2-microglobulin), which together form a groove that can bind and display peptide fragments.
  3. The peptide fragments displayed by MHC I molecules are typically derived from the degradation of intracellular proteins, including those from viruses, bacteria, or abnormal self-proteins.
  4. Cytotoxic T cells, also known as CD8+ T cells, recognize the peptide-MHC I complexes and can initiate the destruction of the target cell through the release of cytotoxic granules or the activation of apoptotic pathways.
  5. The high degree of polymorphism in the MHC I genes allows for the presentation of a diverse array of peptides, enhancing the immune system's ability to detect a wide range of foreign or abnormal cells.

Review Questions

  • Explain the role of MHC I molecules in the immune system's ability to recognize and respond to infected or cancerous cells.
    • MHC I molecules play a crucial role in the immune system's ability to recognize and respond to infected or cancerous cells. These cell surface proteins bind and display peptide fragments derived from the degradation of intracellular proteins, including those from viruses, bacteria, or abnormal self-proteins. Cytotoxic T cells, also known as CD8+ T cells, recognize the peptide-MHC I complexes and can initiate the destruction of the target cell through the release of cytotoxic granules or the activation of apoptotic pathways. This process allows the immune system to monitor the health and integrity of every cell in the body and mount an appropriate response to eliminate infected or transformed cells.
  • Describe the structure and composition of the MHC I complex and how it facilitates the display of peptide fragments.
    • The MHC I complex is composed of a heavy chain and a light chain (β2-microglobulin), which together form a groove that can bind and display peptide fragments. The heavy chain is encoded by genes within the major histocompatibility complex, a highly polymorphic region of the genome, which allows for the presentation of a diverse array of peptides. The peptide fragments displayed by MHC I molecules are typically derived from the degradation of intracellular proteins, including those from viruses, bacteria, or abnormal self-proteins. This structure and composition of the MHC I complex enables the immune system to effectively monitor the health and integrity of every cell in the body and initiate an appropriate response to eliminate infected or transformed cells.
  • Analyze the significance of the high degree of polymorphism in the MHC I genes and how it enhances the immune system's ability to detect a wide range of foreign or abnormal cells.
    • The high degree of polymorphism in the MHC I genes is a crucial feature that enhances the immune system's ability to detect a wide range of foreign or abnormal cells. The polymorphism in the MHC I genes allows for the presentation of a diverse array of peptide fragments, ensuring that the immune system can recognize a broad spectrum of potential threats, including those from viruses, bacteria, or abnormal self-proteins. This diversity in peptide presentation enables the immune system to effectively monitor the health and integrity of every cell in the body and mount an appropriate response to eliminate infected or transformed cells. The high level of polymorphism in the MHC I genes is a result of evolutionary pressures, as it provides a strategic advantage in the ongoing arms race between the host and pathogens, allowing the immune system to adapt and respond to a constantly changing landscape of potential threats.
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