Blood–brain barrier

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The Blood-Brain Barrier (BBB) is a highly selective, semipermeable barrier that plays a critical role in maintaining the homeostasis of the central nervous system (CNS). It separates the circulating blood from the brain and extracellular fluid, effectively regulating the passage of substances into and out of the brain. The BBB ensures that the brain is protected from harmful substances and pathogens, while allowing essential nutrients and gases to pass through.

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Structure and Function

The BBB is composed of endothelial cells that line the brain's capillaries, which are tightly joined together by tight junctions. These junctions restrict the passage of substances by paracellular routes (between cells). The endothelial cells are supported by pericytes and astrocytic end-feet, contributing to the barrier's integrity and function.

Endothelial Cells

These are the primary component of the BBB, forming the capillary walls. They are unique in the CNS due to their tight junctions, lack of fenestration, and reduced pinocytic activity, making the BBB selectively permeable.

Tight Junctions

Protein complexes that seal the spaces between endothelial cells, preventing the free passage of substances from the blood to the brain.

Pericytes

Located on the abluminal side of the endothelial cells, pericytes play a role in regulating blood flow, barrier permeability, and endothelial cell proliferation.

Astrocytes

Astrocytic end-feet cover the majority of the capillary surface and are involved in signaling to endothelial cells to form tight junctions, thus contributing to the BBB's integrity.

Functions of the BBB

The primary function of the BBB is to protect the brain from harmful substances and pathogens while providing the necessary nutrients to support brain function. It also ensures the removal of waste products from the brain. The BBB regulates ion balance in the CNS and maintains an optimal environment for neuronal signaling.

Mechanisms of Transport Across the BBB

Transport across the BBB occurs via several mechanisms:

• Passive diffusion: Allows small, lipid-soluble molecules to cross the BBB freely.
• Facilitated diffusion: Utilizes specific transport proteins for molecules like glucose and amino acids.
• Active transport: Energy-dependent process for essential ions, nutrients, and metabolites.
• Endocytosis and exocytosis: For large molecules like peptides and proteins, utilizing receptor-mediated or adsorptive-mediated transcytosis.

Clinical Significance

The BBB's integrity is crucial for brain health. Disruption of the BBB is associated with various neurological diseases, including stroke, multiple sclerosis, Alzheimer's disease, and brain tumors. Understanding the BBB's functioning is essential for developing strategies to deliver therapeutic agents across it for treating CNS disorders.

Challenges in Drug Delivery

The selective permeability of the BBB presents a significant challenge in developing effective treatments for CNS diseases. Strategies to bypass or transiently open the BBB are being researched, including focused ultrasound, nanoparticles, and carrier-mediated transport systems.

Glossary of Terms

• Central Nervous System (CNS): The part of the nervous system consisting of the brain and spinal cord.
• Endothelial cells: Cells lining the interior surface of blood vessels.
• Paracellular route: Passage between adjacent cells.
• Pericytes: Contractile cells that wrap around the endothelial cells of capillaries and venules.
• Astrocytes: Star-shaped glial cells in the brain and spinal cord.
• Tight junctions: A closely associated area of two cells whose membranes join together forming a barrier.
• Passive diffusion: Movement of molecules across the membrane without the need for energy, from high to low concentration.
• Facilitated diffusion: Process of spontaneous passive transport of molecules or ions across a biological membrane via specific transmembrane integral proteins.
• Active transport: Movement of molecules across a membrane from a region of lower concentration to a region of higher concentration—against the concentration gradient, requiring energy.
• Endocytosis: Process by which cells internalize molecules by engulfing them.
• Exocytosis: Process by which the contents of a cell vesicle are released to the exterior through fusion of the vesicle membrane with the cell membrane.
• Transcytosis: Process by which various macromolecules are transported across the interior of a cell.

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