Two Restricted Sites on the Surface of the Nerve Growth Factor Molecule Independently Determine Specific TrkA Receptor Binding and Activation

Kullander, Klas; Kaplan, David R.; Ebendal, Ted

doi:10.1074/jbc.272.14.9300

Cited by 31 publications

(34 citation statements)

References 54 publications

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“…However, a chimeric molecule that additionally replaced residues 3-9 of the N-terminus reduced TrkA binding, activation, and biological activity to <1% (Ibanez et al, 1993). Other substitution and deletion studies confirmed the importance of the N-terminus in specificity (Kullander et al, 1997;Woo et al, 1995;Kahle et al, 1992;Shih et al, 1994). Data from the crystal structure of human recombinant NGF complexed with the TrkA-d5 domains showed that the amino terminal residues 6-9, which were not well-defined in the original NGF crystal structure, adopted a helical conformation upon complex formation with their side chains almost completely buried in the interface (McDonald et al, 1991;Wiesmann et al, 1999) (Fig.…”

Section: The Specificity Patchmentioning

confidence: 82%

“…Scott et al, 1983;Walsh et al, 1999;Wiesmann et al, 1999;Yeo et al, 1997) . Sequence alignments of NGF, BDNF, and NT-3 (Ibanez et al, 1992;Ibanez et al, 1991;Ibanez et al, 1993;Ilag et al, 1994;Kullander & Ebendal, 1994;Kullander et al, 1997) demonstrate that each neurotrophin possesses seven variable regions that include the same residue positions. These are the N-terminus (residues 1-9), variable region I ( -hairpin loop 1, residues 23-35), variable region II ( -hairpin loop 2, residues 40-49), variable region III ( -reverse turn loop 3, residues 59-66), variable region IV ( -strand, residues 79-88), variable region V ( -hairpin loop 4, residues 95-99), and the C-terminus (residues 111-118) (Fig.…”

Section: Molecular Analysis Of Neurotrophin Structure and Rationale Omentioning

confidence: 99%

“…1B), in general, correspond to loops and surface residues in NGF and the other neurotrophins. Generation of NGF-BDNF chimeras identified variable region II as holding important receptor binding determinants (Ibanez et al, 1991;Ibanez et al, 1993;Ilag et al, 1994;Kullander & Ebendal, 1994;Kullander et al, 1997). The variable region was further dissected into IIa (residues 40-44) and IIb (residues 45-49) (Ibanez et al, 1993).…”

Section: The Variable Regionsmentioning

confidence: 99%

“…Region IIb was shown to play a more pivotal role than IIa when replacement of only the latter led to a dramatic reduction in receptor activation and biological activity (Ibanez et al, 1993). The variable region II, with help from variable region V (loop 4), was also shown to confer specificity between NT-3 and NGF (Ilag et al, 1994;Kullander & Ebendal, 1994;Kullander et al, 1997). The C-terminal linker region of TrkA could serve as a possible binding partner of this region (Wiesmann et al, 1999) (Fig.…”

Section: The Variable Regionsmentioning

confidence: 99%

“…Additional residues, V22, F53, H75, and R100, may not occupy the conserved patch, per se, but are as highly conserved as r e s i d u e s r e s i d i n g w i t h i n o r n e a r t h e p a t c h . S i m i l a r considerations have been made for BDNF and NT-3 (Ibanez et al, 1992;Ibanez et al, 1991;Ibanez et al, 1993;Ilag et al, 1994;Kullander & Ebendal, 1994;Kullander et al, 1997;Suter et al, 1992;Urfer et al, 1997). These regions of the NGF molecule were targeted to obtain the signal selective muteins discussed in Section 5.2.…”

Section: Summary Of Important Regions and Residues Of The Neurotrophimentioning

confidence: 99%

See 4 more Smart Citations

Selectivity of Cell Signaling in the Neuronal Response Based on NGF Mutations and Peptidomimetics in the Treatment of Alzheimers Disease

Neet¹,

Mahapatra²,

Mehta³

2011

Alzheimer's Disease Pathogenesis-Core Concepts, Shifting Paradigms and Therapeutic Targets

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Section: The Specificity Patchmentioning

confidence: 82%

Section: Molecular Analysis Of Neurotrophin Structure and Rationale Omentioning

confidence: 99%

Section: The Variable Regionsmentioning

confidence: 99%

Section: The Variable Regionsmentioning

confidence: 99%

Section: Summary Of Important Regions and Residues Of The Neurotrophimentioning

confidence: 99%

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Selectivity of Cell Signaling in the Neuronal Response Based on NGF Mutations and Peptidomimetics in the Treatment of Alzheimers Disease

Neet¹,

Mahapatra²,

Mehta³

2011

Alzheimer's Disease Pathogenesis-Core Concepts, Shifting Paradigms and Therapeutic Targets

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Growth factor receptors: Structure, mechanism, and drug discovery

McInnes

Sykes

1997

Biopolymers

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The focus of this review is the relationship between the three‐dimensional structure of ligands of the various members of the growth factor receptor tyrosine kinase superfamily and their interaction with the cognate receptor. Particular attention is given to the transforming growth factor—α, epidermal growth factor (EGF); nerve growth factor, neurotrophin; and insulin‐like growth factor—1 (IGF‐1), insulin systems since these have been extensively studied in recent years. The three receptor types, which bind these ligands, are the epidermal growth factor receptor family (erb B receptors), the neurotrophin or Trk receptor family, and IGF‐1/insulin receptors, respectively, and represent three distinct members of the tyrosine kinase superfamily. For each of these, formation of the ligand‐receptor complex initiates the signal transduction cascade through autophosphorylation by the intracellular tyrosine kinase domain. The extracellular portion of the receptor that contains the ligand binding domain in these systems varies significantly in organization in each case. For the EGF receptor system, ligand binding induces homo‐ and heterodimerization of the receptor leading to activation of the intracellular kinase. For the Trk receptor system, homodimerization of receptors has been shown to occur, although a second receptor, p75, is also required for high affinity binding of neurotrophins and for enhanced sensitivity of tyrosine kinase activation at low ligand concentrations. The IGF‐1 and insulin receptors exist as covalent cross‐linked dimers where each monomer is composed of two subunits. The aim of this review is also to discuss the mechanism of ligand‐receptor interaction for each of these cases; however, since no structural information is yet available for the ligand‐receptor complex, the discussion will largely be centered on the molecular requirements of ligand binding. As these receptors are activated through the ligand binding site on the extracellular domain, this represents a possible target for pharmacological intervention by inhibition or stimulation of this portion of the receptor. Thus from a drug design perspective, the focus of this review is to discuss progress in the development of agonists or antagonists of the ligand for these receptors. © 1998 John Wiley & Sons, Inc. Biopoly 43: 339–366, 1997

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Specificity of neurotrophin-3 determined by loss-of-function mutagenesis

Kullander¹,

Kylberg²,

Ebendal³

1997

J. Neurosci. Res.

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Neurotrophin-3 (NT-3) is a member of the family of neurotrophic factors, which also includes nerve growth factor (NGF) and which have specific activities on different subsets of vertebrate neurons. The aim of this study was to determine which residues in NT-3 direct its specificity to the cognate TrkC receptor. It was possible to replace 80% of the residues in NT-3 with NGF residues without loss of specific activity. Residues D72, Y85, R87, W101, S107, and A111, together with either the residues F12, V18, V20, M37, V42, F54, and K57 or the variable regions IV and V, accounted for the specificity of NT-3. It is concluded that NGF and NT-3 use overlapping as well as separated regions for determination of specificities for their cognate receptors TrkA and TrkC, respectively.

show abstract

Two Restricted Sites on the Surface of the Nerve Growth Factor Molecule Independently Determine Specific TrkA Receptor Binding and Activation

Cited by 31 publications

References 54 publications

Selectivity of Cell Signaling in the Neuronal Response Based on NGF Mutations and Peptidomimetics in the Treatment of Alzheimers Disease

Selectivity of Cell Signaling in the Neuronal Response Based on NGF Mutations and Peptidomimetics in the Treatment of Alzheimers Disease

Growth factor receptors: Structure, mechanism, and drug discovery

Specificity of neurotrophin-3 determined by loss-of-function mutagenesis

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