Cell polarity markers

Cell polarity: subcellular complexes, and cytoskeletal machinery, within one cell.

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What is cell polarity?

Cell polarity refers to the existence of distinctive cellular components, composed of membranes with different lipid and protein contents, subcellular complexes, and cytoskeletal machinery, within one cell.

Such spatial asymmetric distribution allows cells to perform various functions: transport, cellular signaling, and mechanosensing. The most common cell polarity example is the polarity of epithelial cells.

Epithelial cell polarity

Epithelial cells form a continuous cell layer connected via specialized cell junctions:

- adherens junctions (nectins – PVRL proteins, E-cadherins, alpha (Figure 1) and beta catenins)

- tight junctions (zonula occludens proteins, e.g., ZO-1 (Figure 2), occludin)

- desmosomes

Figure 1. Immunohistochemistry of paraffin-embedded human stomach tissue slide using 12831-1-AP (Alpha E catenin antibody) at a dilution of 1:50 (under 40x lens).

Figure 2. Immunofluorescent analysis of (-20°C Ethanol) fixed HUVEC cells using 21773-1-AP (ZO-1 antibody) at a dilution of 1:100 and Alexa Fluor 488-conjugated AffiniPure Goat Anti-Rabbit IgG(H+L).

This permits the formation of two distinctive compartments: apical and basolateral membranes (Figure 3). Typically, the apical membrane faces the external environment, while the basal membrane is connected to the extracellular matrix (ECM) of the basement membrane via integrins and their receptors.

Formation of the apical membrane is governed by a family of transmembrane proteins: Crumbs (e.g., CRB3; Figure 4) and by the associated cytoplasmic multiprotein PAR complex (e.g., PARD3). The basolateral membrane is maintained by the activity of the SCRIB complex. The cytoskeleton, especially the actin filaments and microtubules, plays a role in maintaining the polarity.

Figure 3. Epithelial cell polarity – apical and basolateral membranes, tight and adherens junctions, with the key cellular machinery involved in cell polarity regulation.

Figure 4. Immunohistochemistry of paraffin-embedded human pancreas tissue slide using 12315-1-AP (CRB3 Antibody) at a dilution of 1:200 (under 10x lens).

Neuronal cell polarity

During the development, rounded neuronal cells develop a few short lamellipodia. One of these undergoes a rapid growth phase and becomes an axon. The others develop into dendrites. Actin filaments, microtubules, and their associated proteins regulate growth, stability, and transport along the cytoskeleton. This plays a crucial role in establishing and maintaining the polarity of neurons (Figure 5). Therefore, cytoskeleton-associated proteins are widely used as markers for different cells’ neuronal parts. Microtubule-associated protein Tau and neurofilament proteins (especially NF-L; Figure 6) are commonly used axonal markers.

Figure 5. The development of neuronal polarity: neuronal polarity markers.

Figure 6. Immunohistochemical analysis of paraffin-embedded rat brain tissue slide using 60189-1-Ig (NF-L antibody) at dilution of 1:500 (under 40x lens). Heat mediated antigen retrieval with Tris-EDTA buffer (pH 9.0).. 

MAP2, a tubulin-binding protein that regulates the spacing and stability of microtubules, is a marker for dendrites and cell bodies (Figure 7). Tissue-specific splicing regulator NeuN (Figure 8) is used to visualize the nucleus of postmitotic neurons but can also be present in the soma. TUBB3 (TuJ1) is frequently used as a general neuronal marker since this type of beta tubulin is present in the cell body and dendrites, as well as axons.

Figure 7. Immunohistochemical analysis of paraffin-embedded mouse brain tissue slide using 17490-1-AP (MAP2 antibody) at dilution of 1:2000 (under 10x lens). Heat mediated antigen retrieval with Tris-EDTA buffer (pH 9.0)..

Figure 8. Immunofluorescent analysis of (4% PFA) fixed mouse brain tissue using 26975-1-AP (NeuN antibody) at dilution of 1:50 and Alexa Fluor 488-Conjugated AffiniPure Goat Anti-Rabbit IgG(H+L)..

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Cell polarity-related antibodies

Product ID	Antigen name	Cell polarity function
Epithelial cell polarity
21773-1-AP	ZO-1	Tight junction formation
12315-1-AP	CRB3	Apical transmembrane protein
11085-1-AP	PARD3	Apical membrane formation
12831-1-AP	Alpha E catenin	Linking adherens junctions with actin cytoskeleton
51067-2-AP	Beta catenin	Linking adherens junctions with actin cytoskeleton
13409-1-AP	Occludin	Tight junction protein
60008-1-Ig	Beta actin	Organization of polarity
27096-1-AP	Integrin alpha V	Basal membrane integrity
18309-1-AP	Integrin beta 3	Basal membrane integrity
66315-1-Ig	Integrin beta 1	Basal membrane integrity
27189-1-AP	Integrin alpha 6	Basal membrane integrity
10569-1-AP	Integrin alpha 5	Basal membrane integrity
21738-1-AP	Integrin beta 4	Basal membrane integrity
22146-1-AP	Integrin alpha 1	Basal membrane integrity
24713-1-AP	PVRL1	Adherens junctions
27171-1-AP	Nectin 2	Adherens junctions
11213-1-AP	PVRL3	Adherens junctions
20874-1-AP	E-cadherin	Adherens junctions
27083-1-AP	SCRIB	Basolateral membrane formation
Neuronal cell polarity
66499-1-Ig	TAU	Abundant in axons (predominantly distal parts) - promotes assembly and stability of microtubules
17490-1-AP	MAP2	Present in dendrites and the cell body - regulating the spacing and stability of microtubules
26975-1-AP	NeuN	Predominantly in the nucleus - splicing regulator
60189-1-Ig	NF-L	Abundant in axons - a major class of intermediate filaments
66375-1-Ig	TUBB3	Stains cell body, dendrites, and axons - an isoform of tubulin expressed in neurons and testes