Cell surface receptors structure

Eisen MB, Sabesan S, Skehel JJ, Wiley DC. (1997) Binding of the Influenza A virus to cell-surface receptors structures of five hemagglutinin-sialyloligosaccharide complexes determined by X-ray crystallography. Virology HI, 19-31. 

Muscarinic acetylcholine receptors (mAChRs) form a class of cell surface receptors that are activated upon binding of the neurotransmitter, acetylcholine. Structurally and functionally, mAChRs are prototypical members of the superfamily of G protein-coupled receptors. Following acetylcholine binding, the activated mAChRs interact with distinct classes of heterotrimeric G proteins resulting in the activation or inhibition of distinct downstream signaling cascades. 

The neurotransmitter acetylcholine (ACh) exerts its diverse pharmacological actions via binding to and subsequent activation of two general classes of cell surface receptors, the nicotinic and the mAChRs. These two classes of ACh receptors have distinct structural and functional properties. The nicotinic receptors,... 

Enbrel is a product now approved for medical use that is based upon this strategy. The product is an engineered hybrid protein consisting of the extracellular domain of the TNF p75 receptor fused directly to the Fc (constant) region of human IgG (see Box 13.2 for a discussion of antibody structure) The product is expressed in a CHO cell line from which it is excreted as a dimeric soluble protein of approximately 150 kDa. After purification and excipient addition (mannitol, sucrose and trometamol), the product is freeze-dried. It is indicated for the treatment of rheumatoid arthritis and is usually administered as a twice-weekly s.c. injection of 25 mg product reconstituted in WFI. Enbrel functions as a competitive inhibitor of TNF, a major pro-inflammatory cytokine. Binding of TNF to Enbrel prevents it from binding to its true cell surface receptors. The antibody Fc component of the hybrid protein confers an extended serum half-life on the product, increasing it by fivefold relative to the soluble TNF receptor portion alone. 

The neurotrophins interact with two distinct cell surface receptor species [5,6,9] (Fig. 27-2). The neurotrophins bind to the Trk family of receptors, which serve as the principal signal transducer for this class of growth factors. The Trk receptors comprise a small, highly related family of molecules that possess an extracellular ligand binding domain that selectively interacts with the individual neurotrophin species. Trk A specifically binds NGF, TrkB interacts with BDNF and NT4/5, and TrkC preferentially binds NT3. Importantly, the Trk receptors have an intracellular tyrosine kinase domain that is activated upon neurotrophin binding. The kinase domains of the Trk family members are highly conserved and the Trks differ mainly in the structure of their extracellular domains. Trk receptor expression is limited to neurons and the... 

FIGURE 27-3 Neurotrophic cytokines and their receptors. Neurotrophic cytokines are related to IL6 and bind to cell surface receptor complexes that share a common structural organization. The four ligands interchangeably employ two distinct receptor subunits, leukemia inhibitory factor receptor 3 (LIF-Rpt) andgpl30, and some employ a ligand-specific a subunit. CNTF-R, ciliary neurotrophic factor CT-fR.cardiotrophin 1 receptor IL6-R, interleukin-6 receptor. 

Figure 4.11 Generic structures of ceLL surface receptors (a) single pass (b) serpentine or 7-pass (c) multimeric...

Deller MC, Jones EY. Cell surface receptors. Current Opinion in Structural Biology 10 213-219 (2000). 

Interferons There are two types of interferons Type I, which includes IFN-a and IFN-jS, and Type II consisting of IFN-y. IFN-a and IFN- 8 have about 30% homology in amino acid sequence. There are two more recently discovered Type I interferons they are called IFN-o and IFN-t. IFN-a and IFN- 8 each have 166 amino acids, and IFN-yhas 143. Both IFN-a and IFN-jS are of single chain structure and bind to the same type of cell surface receptors, whereas IFN-y is a dimer of two identical chains and interacts with another type of receptor. All our cells can produce Type I interferons when infected by viruses, bacteria, and fungi. However, only T cells and natural killer cells can produce... 

Binary toxins are unique concerning their structure because they are comprised of two individual, nonlinked proteins represented by an enzyme component and a binding/translocation component. The two components are secreted by the bacterium and assemble upon the surface of targeted eukaryotic cells to form an active toxin complex. For this to occur, both protein components of binary toxins act in a precisely concerted manner. The binding component first engages the cell-surface receptor and then mediates translocation of enzyme compo-nent(s) from the outside of a cell, through acidified endosomes, and into the host cell cytosol where it modifies the substrate (for review see Barth ). 

The domain structure in fibronectins is made up of a few types of peptide module that are repeated numerous times. Each of the more than 50 modules is coded for by one exon in the fibronectin gene. Alternative splicing (see p. 246) of the hnRNA transcript of the fibronectin gene leads to fibronectins with different compositions. The module that causes adhesion to cells contains the characteristic amino acid sequence -Arg-Gly-Asp-Ser-. It is these residues that enable fibronectin to bind to cell-surface receptors, known as integrins. 

Each adult stem cell subtype can be identified by cell surface receptors that selectively bind to particular signaling molecules. Differences in structure and binding affinity allow for a remarkable multiplicity of receptors. Normally, cells utilize these receptors and the molecules that bind to them to communicate with other cells and perform the proper function of the tissue to which they belong (e.g., contraction, secretion, synaptic transmission). Each type of adult stem cell has a certain receptor or combination of receptors (i.e., marker) that distinguishes it from other types of stem cells (Table 7.1). 

Fig. I. Endocytic pathways used by cells to internalize soluble macromolecules [25] fluid-phase pinocytosis (1), adsorptive pinocytosis (2), and receptor-mediated endocytosis (pinocytosis) (6). Each of these processes involves a formation of a sealed vesicle formed from the plasma membrane which encloses part of the extracellular medium. The internalization of a polymer-drug conjugate (P-D), and targeted polymer-drug conjugate ( => —P-D) is shown. Other abbreviations — = cell surface receptor/antigen 1 = clathrin molecule X = lysosomal enzyme. Fluid-phase pinocytosis (1) and adsorptive pinocytosis (2) are nonspecific processes which direct the macromolecule into the lysosomal compartment of the cell. Once P-D is internalized, whether by (1) or (2), the resulting endosome (3) is ultimately fused with a primary lysosome (4) forming a secondary lysosome (5). In the latter compartment P-D is in contact with several types of lysosomal enzymes. The membrane of (5) is impermeable to macromolecules. Consequently, the structure of P-D may be designed in such...

The steroid cyclophane also provides a sizable and well-desolvated hydro-phobic cavity in aqueous media in a manner as observed for the octopus cyclophane. The molecular recognition ability of the steroid cyclophane is inferior to that of the octopus cyclophane in aqueous solution due to the structural rigidity of steroid segments of the former host. When the steroid cyclophane is embedded in the bilayer membrane to form a hybrid assembly, however, the steroid cyclophane becomes superior to the octopus cyclophane with respect to functions as an artificial cell-surface receptor, performing marked guest discrimination. 

The AChR is one of the best characterized of all cell-surface receptors for hormones or neurotransmitters (Figure 2-9). One form of this receptor is a pentamer made up of four different polypeptide subunits (eg, two chains plus one B, one 7, and one 5 chain, all with molecular weights ranging from 43,000 to 50,000). These polypeptides, each of which crosses the lipid bilayer four times, form a cylindrical structure that is 8 nm in diameter. When acetylcholine binds to sites on the subunits, a conformational change occurs that results in the transient opening of a central aqueous channel through which sodium ions penetrate from the extracellular fluid into the cell. 

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