Frizzled

Frizzled is a family of G protein-coupled receptors that serve critical roles in Wnt signaling and the regulation of cell development, proliferation, and polarity. The name "Frizzled" is derived from the frizzled (fz) gene in Drosophila melanogaster, where mutations lead to the disruption of planar cell polarity and the development of irregularly oriented hairs and bristles.

Structure

Frizzled receptors are characterized by a conserved 550- to 600-amino acid structure, which includes a cysteine-rich domain (CRD) in the extracellular region that is essential for binding Wnt proteins. This domain contains 10 conserved cysteines and is critical for the specificity and affinity of Wnt/Frizzled interactions. The seven-pass transmembrane domain, characteristic of G protein-coupled receptors, allows Frizzled receptors to transduce extracellular signals across the cell membrane, initiating intracellular signaling cascades.

Function

Frizzled receptors play a pivotal role in the Wnt signaling pathway, a complex network of proteins that regulates crucial aspects of cell fate determination, cell migration, cell polarity, neural patterning, and organogenesis during embryonic development. There are two main pathways of Wnt signaling: the canonical (β-catenin-dependent) pathway and the non-canonical (β-catenin-independent) pathways, which include the planar cell polarity (PCP) pathway and the Wnt/Ca^2+ pathway. Frizzled receptors can mediate signals through both canonical and non-canonical pathways, depending on the context and cellular environment.

Canonical Wnt Signaling

In the canonical pathway, binding of Wnt to Frizzled and its co-receptor, LRP5/6, leads to the stabilization and accumulation of β-catenin in the cytoplasm. β-catenin then translocates to the nucleus, where it acts as a co-transcription factor to regulate the expression of Wnt target genes.

Non-Canonical Wnt Signaling

In non-canonical signaling, Wnt/Frizzled interaction activates alternative pathways, such as the PCP pathway, which regulates cell movement and orientation, and the Wnt/Ca^2+ pathway, which influences cell adhesion and tissue separation. These pathways do not involve β-catenin as a mediator.

Clinical Significance

Aberrations in Frizzled receptor function and Wnt signaling are implicated in a variety of human diseases, including cancer, degenerative diseases, and developmental disorders. Overexpression or mutations in Frizzled genes can lead to abnormal activation of Wnt signaling, promoting tumorigenesis and cancer progression. Conversely, loss of Frizzled function can result in developmental defects and diseases due to impaired cell signaling.

Research and Therapeutic Potential

Given their central role in Wnt signaling and disease, Frizzled receptors are considered promising targets for therapeutic intervention. Research is ongoing to develop drugs that can modulate Frizzled activity, including small molecule inhibitors, antibodies, and peptide mimetics, with the potential to treat cancer, osteoporosis, and other Wnt-related conditions.

 Cell surface receptor: G protein-coupled receptors

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  Frizzled

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  Signal transduction pathways