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Reference: www.mshri.on.ca/pawson/research1.html

Back to "Protein protein interactions"

Protein protein interaction domains in signal transduction

Larger databases that contain this topic as a subset:

http://us.expasy.org/tools/

see links

    Pattern and Profile Searches, e.g. PROSITE profiles http://us.expasy.org/cgi-bin/prosite-list.pl#domains

    Posttranslational Modifications

Function of Interaction domains:

- to form specific multi-protein complexes that couple cell surface receptors to intracellular biochemical pathways that control cellular responses to external signals. 

How?

- signal transduction pathways usually involve a series of protein-protein interactions, 

- recruit and confine signaling proteins to an appropriate subcellular location, 

- determine the specificity with which enzymes interact with their targets, e.g. association of protein kinases and their substrates. 

Modular character of protein protein interaction domains in signal transduction

- typically, protein-protein interaction domains are independently folding modules of 35-150 amino acids, therefore structure of many of them are available

- their N- and C-termini are usually close together in space, while their ligand-binding surface lies on the opposite face of the domain. This arrangement allows the domain to be inserted into a host protein while projecting its ligand-binding site to engage another polypeptide.

- multiple domains can be assembled in a single protein

Families of protein-protein interaction domains 

- based on sequence similarity

- based on ligand-binding properties

computational estimate:

- at least 1394 distinct interacting domains in the DIP (see Figure 1 in Bock and Gough (2001))

- average 481 + 386 domain length (as predicted by Pfam) (see Figure 1 in Bock and Gough (2001))

- Most frequent protein domains in the interaction dataset, as predicted by the Protein Families Database (Pfam) (see Table2 in Bock and Gough (2001))

?? This will also include non-protein protein interaction domains, doesn't it??? For example a kinase interacting with a receptor will show the kinase domain by this approach, which is NOT the domain of interaction.

Motifs that are recognized by protein protein interaction domains:

A. Short peptides

B. Extensive protein-protein interaction domain interfaces (homo- or heteromultimers)

Examples for short peptide motifs:

- with secondary modification

    1. phosphotyrosine-containing motifs, 

        - Examples for protein who carry this motif: activated receptors for growth factors, cytokines and antigens. 

        - Recognizing protein protein interaction domain: 

            a. SH2 domains

            b. PTB domains, also binds unphosphorylated peptides

    2. phosphoserine/threonine motifs,

        - Recognizing protein protein interaction domain:

            a. 14-3-3 proteins

            b. FHA domains

            c. WW domains, also binds unphosphorylated peptides, see below Proline-rich

            d. WD40-repeat domains

    3. acetylation of lysine residues

        - Proteins who carry the motif: histones

        - Recognizing proteins: creates binding sites for the Bromo domain

    4. methylation of lysine residues

        - Proteins who carry the motif: histones

        - Recognizing proteins: creates binding sites for the Chromo domains,

- without requirement for secondary modification

    1. Proline-rich

        - Recognizing protein domains:

            a. SH3

            b. WW

            c. EVH1

   2. PDZ domain motifs

        - PDZ domains bind the extreme C-termini of other polypeptides, such as ion channels and receptors, in a fashion that appears important for the localization of their targets to particular subcellular sites, as well as for downstream signaling.

Example: G protein coupled receptors

Other protein-protein interaction domains:

Apoptosis

• DD
• DED
• CARD
• BH1-4

Chromatin

• CSD

Proteolysis

• F-box
• Hect
• RING

Dimerization

• SAM

Vessicle Traffic

• GYF
• Snare
• VHS

Undefined

• ANK
• ARM
• WD40
• LIM

Miscellaneous

• EF-hand
• MH2

Examples for extensive protein-protein interaction domains:

PDZ

Protein-lipid interactions:

In addition to interaction domains that engage specific peptide motifs, a growing number of modules have been identified that recognize selected phospholipids, notably phosphoinositides (PI). Strikingly, PH domains can bind either PI-4,5-P2 or PI-3,4,5-P3, and thereby mediate the effects of lipid kinases and phosphatases on cellular function. Such phospholipid-binding domains serve both to concentrate signaling proteins at specific subregions of the plasma membrane, and to regulate the enzymatic activities of their host proteins, either directly or by co-recruitment of another regulatory protein. Modules such as FYVE domains can recognize PI-3-P, and may play an important role in the trafficking of proteins within the cell.

Phospholipid

• PH
• C1
• C2
• FYVE

Structural relation between protein protein interaction domains:

Although PTB domains primarily bind peptide motifs and PH domains recognize phosphoinositdes, they have a very similar structural fold, which is shared by other interaction domains, including EVH1 domains which bind specific proline-rich sequences. It seems that the PH/PTB/EVH1 domain fold provides a framework that can be used for multiple distinct types of intermolecular interactions.