Cell polarity

Cell Polarity

Diagram illustrating cell polarity in epithelial cells.

Cell polarity refers to the spatial differences in the shape, structure, and function of cells. It is a fundamental characteristic of many cell types, including epithelial cells, neurons, and migrating cells. Cell polarity is crucial for various biological processes, such as cell division, cell signaling, and the formation of tissues and organs.

Mechanisms of Cell Polarity

Cell polarity is established and maintained through a combination of intrinsic and extrinsic factors. These include:

Intrinsic Factors

• Cytoskeleton: The cytoskeleton plays a critical role in establishing cell polarity by organizing the cell's internal structure. Microtubules, actin filaments, and intermediate filaments contribute to the asymmetric distribution of cellular components.

• Polarity Proteins: Specific proteins, such as the PAR complex, Crumbs complex, and Scribble complex, are involved in defining and maintaining polarity. These proteins interact with each other and with the cytoskeleton to establish distinct cellular domains.

Extrinsic Factors

• Cell-Cell Interactions: Interactions with neighboring cells through cell junctions such as tight junctions, adherens junctions, and desmosomes help establish and maintain polarity.

• Cell-Extracellular Matrix Interactions: The extracellular matrix (ECM) provides cues that influence cell polarity through integrin signaling and other receptor-mediated pathways.

Types of Cell Polarity

Cell polarity can be classified into several types based on the orientation and function of the polarized cells:

Apical-Basal Polarity

This type of polarity is characteristic of epithelial cells, where the apical surface faces the lumen or external environment, and the basal surface interacts with the underlying basement membrane. This polarity is essential for functions such as absorption, secretion, and barrier formation.

Planar Cell Polarity

Planar cell polarity refers to the coordinated orientation of cells within the plane of a tissue. It is crucial for processes such as hair follicle orientation, neural tube closure, and the organization of ciliated cells in the respiratory tract.

Front-Rear Polarity

This type of polarity is observed in migrating cells, such as fibroblasts and neutrophils. The front of the cell, or leading edge, is characterized by the extension of lamellipodia and filopodia, while the rear, or trailing edge, is involved in retraction and movement.

Importance of Cell Polarity

Cell polarity is essential for numerous physiological processes, including:

• Development: Proper cell polarity is crucial for embryonic development, influencing processes such as gastrulation, neurulation, and organogenesis.

• Tissue Homeostasis: Polarity is vital for maintaining the structure and function of tissues, ensuring that cells perform their specific roles effectively.

• Disease Prevention: Loss of cell polarity is associated with various diseases, including cancer, where it can lead to uncontrolled cell proliferation and metastasis.

Related Pages

• Epithelial cell
• Cytoskeleton
• Cell junction
• Extracellular matrix
• Embryonic development