Jason S. Sutherland scite author profile

Using molecular cloning techniques, human homologs of the known members of the trk family of neurotrophin receptors have been cloned and sequenced. Overall, there is a high degree of similarity between the human sequences and those from other mammals; however, there are differences in splicing patterns. There are two spliced forms of the extracellular domain of trkC in the human, a finding that has not been described in other species. In contrast, fewer spliced forms were detected of the intracellular domains of human trkB and trkC than has been described in other mammals. Northern analysis and in situ hybridization experiments indicate that the human trks are expressed in a similar pattern to that described in other mammals. Expression of the trk extracellular domains as fusion proteins with IgG heavy chain yields soluble molecules that mimic intact trks in their binding specificity and affinity. These soluble chimeras block the biological activity of their cognate neurotrophin(s) in vitro.

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Truncated and Catalytic Isoforms of trkB are Co‐expressed in Neurons of Rat and Mouse CNS

Armanini¹,

McMahon

Sutherland³

et al. 1995

Eur J of Neuroscience

120

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Localization of mRNA encoding trkB indicates that two truncated isoforms of trkB, T1trkB and T2trkB, are differentially distributed in the rodent nervous system, and that each of these transcripts is co-expressed with catalytic trkB (TK+trkB) in adult motor neurons. In contrast to the prominent expression of T1trkB by non-neuronal cells, T2trkB expression appeared to be restricted to neurons and demonstrated significant overlap with the pattern of TK+trkB distribution. In developing spinal cord ventral horn, an age-related increase in hybridization was observed for truncated isoforms. These findings suggest that truncated trkB may modulate neuronal responses to neurotrophins which act via trkB.

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The Transferable Tail: Fusion of the N-Terminal Acidic Extension of Heparin Cofactor II to α₁-Proteinase Inhibitor M358R Specifically Increases the Rate of Thrombin Inhibition

et al. 2006

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The conversion of the reactive center bond of the serpin alpha1-proteinase inhibitor (alpha1-PI, also known as alpha1-antitrypsin) from Met-Ser to Arg-Ser decreases the rate at which it inhibits neutrophil elastase and endows it with the ability to inhibit thrombin and activated protein C (APC). Another serpin, heparin cofactor II (HCII), contains a unique N-terminal extension that binds thrombin exosite 1. We fused residues 1-75 of HCII to the N-terminus of alpha1-PI M358R, forming an HCII-alpha1-PI chimera (HAPI M358R). It inhibited alpha-thrombin 21-fold faster than alpha1-PI M358R, with second-order rate constants of 2.3 x 10(8) M(-1) min(-1) versus 1.1 x 10(7) M(-1) min(-1), respectively. When gammaT-thrombin, which lacks an intact exosite 1, was substituted for alpha-thrombin, the kinetic advantage of HAPI M358R over alpha1-PI M358R was reduced to 9-fold, whereas APC and trypsin, proteases lacking exosite 1-like regions, were inhibited only 1.3- and 2-fold more rapidly by HAPI M358R than by alpha1-PI M358R, respectively. Maximal enhancement of alpha1-PI M358R activity required the acidic residues found between HCII residues 55 and 75, because no enhancement was observed either by fusion of residues 1-54 alone or by fusion of a mutated HCII acidic extension in which all Glu and Asp residues between positions 55 and 75 were neutralized by mutation. Fusing residues 55-75 to alpha1-PI M358R yielded a relative rate enhancement of only 6-fold, suggesting a need for the full tail region to achieve maximal enhancement. Our results suggest that transfer of the N-terminal acidic extension of HCII to alpha1-PI M358R enhanced its inhibition of thrombin by conferring the ability to bind exosite 1 on HAPI M358R. This enhancement may aid in efforts to tailor this inhibitor for therapeutic use.

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The appended tail region of heparin cofactor II and additional reactive centre loop mutations combine to increase the reactivity and specificity of α1-proteinase inhibitor M358R for thrombin

Sutherland

Bhakta²,

Sheffield³

2007

Thromb Haemost

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SummaryNatural inhibitors of coagulation or inflammation such as the serpins antithrombin (AT), heparin cofactor II (HCII), and 1-proteinase inhibitor (α1-PI) can be overwhelmed in thrombosis and/or sepsis. The reactive centre (P1-P1) variant α1-PI M358R inhibits not only procoagulant thrombin but also anticoagulant activated protein C (APC). We previously described HAPI M358R, comprising a fusion of HCII residues 1–75 to the N-terminus of a1-PI M358R that yielded increased anti-thrombin, but not anti-APC activity. We hypothesized that further alterations to the HAPI M358R reactive centre loop would yield additional refinements in specificity. The reactions with thrombin or APC of recombinant α1-PI M358R variants with or without the HCII extension were characterized electrophoretically and kinetically. Their extension of clotting times and inhibition of fibrin-bound thrombin were measured, and the survival of HAPI M358R in mice was determined. Replacing the P7-P3 and P2’ residues of HAPI M358R with AT residues reduced APC inhibition rates by 140-fold, but those of thrombin less than two-fold;substituting the P16-P2 and P2’-P3’ residues of HAPI M358R with HCII residues reduced APC inhibition rates by 180-fold, but those of thrombin 10.5-fold. Fused variants extended thrombin clotting times more effectively than unfused inhibitors, were at least as effective at inhibiting clot-bound thrombin, and remained intact in the murine circulation. The combination of modifications inside and outside the RCL resulted in a 1,360-fold increase in selectivity of HAPI M358R (AT P7-P3/P2’) for thrombin versus APC relative to α1-PI M358R. Our results predict that this protein may be effective in limiting thrombosis in vivo.

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