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Intracellular Signaling Affects Focal Adhesions01:17

Intracellular Signaling Affects Focal Adhesions

Integrins act both as extracellular input receivers and as intracellular processing activators. As their name suggests, integrins are entirely integrated into the membrane structure. Their hydrophobic membrane-spanning regions interact with the phospholipid bilayer's hydrophobic region. These membrane receptors provide extracellular attachment sites for effectors like hormones and growth factors. They activate intracellular response cascades when their effectors are bound and active.
Some...
Activation of Integrins01:15

Activation of Integrins

Integrins bind ligands and transmit information from outside the cell to inside or vice-versa through an "outside-in signaling" or "inside-out signaling."
In "outside-in signaling," external factors in the extracellular space bind to exposed ligand binding sites on integrins. This causes the inactive protein to undergo a conformational change to become active. Integrins are often clustered on the cell membrane. Repetitive and regularly spaced ligand binding events provide an effective stimulus.
Integrins01:10

Integrins

Animal and protozoan cells do not have cell walls to help maintain shape and provide structural stability. Instead, these eukaryotic cells secrete a sticky mass of carbohydrates and proteins into the spaces between adjacent cells. This network of proteins and molecules is called an extracellular matrix or ECM.
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Selectins01:25

Selectins

Cell adhesion is  an essential aspect of multicellularity. While stable cell interactions usually occur between cells of the same type, transient cell interactions occur between cells of different tissue types, such as between neutrophils and endothelial cells. Selectins are one class of cell adhesion molecules (CAMs) that bind carbohydrate ligands to form transient cell adhesion. They are rod-like proteins with a long extracellular part of variable length ending with the lectin domain, which...
Immunoglobulin-like Cell Adhesion Molecules01:31

Immunoglobulin-like Cell Adhesion Molecules

Immunoglobulin-like cell adhesion molecules or Ig-CAMs are a versatile group of cell surface glycoproteins belonging to the immunoglobulin protein superfamily. Ig-CAMs possess the characteristic immunoglobulin protein domains and other domains such as the fibronectin type III domain. The Ig domains are glycosylated to varying degrees in different Ig-CAMs.
Ig-CAMs exhibit either homophilic binding (to other Ig-CAMs) or heterophilic binding (to other ligands such as integrins). While most Ig-CAMs...
Overview of Cell-Matrix Interactions01:24

Overview of Cell-Matrix Interactions

The extracellular matrix or ECM holds cells together to form a tissue and allows the cells within the tissue to communicate. ECM comprises proteins such as fibronectin, collagen, laminin, etc. The most abundant protein in this space is collagen. Collagen fibers are interwoven with carbohydrate-containing protein molecules called proteoglycans. ECM allows cell migration and provides a structural scaffold at cell adhesion that anchors the cell when the extracellular matrix proteins interact with...

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Related Experiment Video

Updated: May 26, 2026

A Flow Cytometry-Based High-Throughput Technique for Screening Integrin-Inhibitory Drugs
04:15

A Flow Cytometry-Based High-Throughput Technique for Screening Integrin-Inhibitory Drugs

Published on: February 2, 2024

Small-molecule-modified surfaces engage cells through the αvβ3 integrin.

Joseph R Klim1, Anthony J Fowler, Adam H Courtney

  • 1Cell and Molecular Biology Program, University of Wisconsin-Madison, Madison, Wisconsin 53706, United States.

ACS Chemical Biology
|December 29, 2011
PubMed
Summary

Researchers developed a novel method to selectively isolate cells using immobilized integrin antagonists. This approach leverages the high specificity of synthetic antagonists to target specific cell surface integrins, enabling controlled cell adhesion and signaling for research applications.

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Area of Science:

  • Cell biology
  • Biochemistry
  • Biomaterials science

Background:

  • Integrins are crucial cell surface receptors mediating cell adhesion and signal transduction.
  • Dissecting specific integrin functions is challenging due to overlapping specificities and shared signaling pathways.
  • Synthetic antagonists offer high selectivity for specific integrin subtypes.

Purpose of the Study:

  • To investigate the potential of immobilized synthetic integrin antagonists to support cell adhesion and signaling.
  • To design and synthesize a bifunctional peptidomimetic for selective integrin engagement.
  • To demonstrate the utility of selective surfaces for isolating specific cell populations.

Main Methods:

  • Design of a bifunctional peptidomimetic combining an integrin ligand (RGD) and a biotin moiety.
  • Immobilization of the peptidomimetic onto streptavidin-coated surfaces.
  • Assessment of cell adhesion, integrin activation, and cell capture selectivity.

Main Results:

  • Immobilized peptidomimetic surfaces effectively promoted cell adhesion and integrin activation.
  • The surfaces demonstrated high selectivity for the α(v)β(3) integrin.
  • This selectivity enabled the capture of a specific subset of cells from a mixed population.

Conclusions:

  • Immobilized, highly selective small molecule ligands can be used to control integrin-mediated cell adhesion.
  • This approach provides a powerful tool for dissecting the roles of specific integrin heterodimers in cellular processes.
  • Selective cell capture using engineered surfaces offers new avenues for cell isolation and research.