Uwe Jacob scite author profile

The immune response depends on the binding of opsonized antigens to cellular Fc receptors and the subsequent initiation of various cellular effector functions of the immune system. Here we describe the crystal structures of a soluble Fc gamma receptor (sFc gammaRIII, CD16), an Fc fragment from human IgG1 (hFc1) and their complex. In the 1:1 complex the receptor binds to the two halves of the Fc fragment in contact with residues of the C gamma2 domains and the hinge region. Upon complex formation the angle between the two sFc gammaRIII domains increases significantly and the Fc fragment opens asymmetrically. The high degree of amino acid conservation between sFc gammaRIII and other Fc receptors, and similarly between hFc1 and related immunoglobulins, suggest similar structures and modes of association. Thus the described structure is a model for immune complex recognition and helps to explain the vastly differing affinities of other Fc gammaR-IgG complexes and the Fc epsilonRI alpha-IgE complex.

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Antibodies to MOG are transient in childhood acute disseminated encephalomyelitis

Pröbstel¹,

Dornmair²,

Bittner³

et al. 2011

Neurology

288

270

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Closed structure of phosphoglycerate kinase from Thermotoga maritima reveals the catalytic mechanism and determinants of thermal stability

et al. 1997

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The hinge-bending motion of the two domains upon closure of the structure, as seen in the Trypanosoma PGK structure, is confirmed. This closed conformation obviously occurs after binding of both substrates and is locked by the Arg62-Asp200 salt bridge. Re-orientations in the conserved active-site loop region around Thr374 also bring both domains into direct contact in the core region of the former inter-domain cleft, to form the complete catalytic site. Comparison of extremely thermostable TmPGK with less thermostable homologues reveals that its increased rigidity is achieved by a raised number of intramolecular interactions, such as an increased number of ion pairs and additional stabilization of alpha helix and loop regions. The covalent fusion with triosephosphate isomerase might represent an additional stabilization strategy.

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Design of Novel and Selective Inhibitors of Urokinase-type Plasminogen Activator with Improved Pharmacokinetic Properties for Use as Antimetastatic Agents

Schweinitz

Steinmetzer

Banke

et al. 2004

Journal of Biological Chemistry

124

156

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The serine protease urokinase-type plasminogen activator (uPA) interacts with a specific receptor (uPAR) on the surface of various cell types, including tumor cells, and plays a crucial role in pericellular proteolysis. High levels of uPA and uPAR often correlate with poor prognosis of cancer patients. Therefore, the specific inhibition of uPA with small molecule active-site inhibitors is one strategy to decrease the invasive and metastatic activity of tumor cells. We have developed a series of highly potent and selective uPA inhibitors with a C-terminal 4-amidinobenzylamide residue. Optimization was directed toward reducing the fast elimination from circulation that was observed with initial analogues. The x-ray structures of three inhibitor/uPA complexes have been solved and were used to improve the inhibition efficacy. One of the most potent and selective derivatives, benzylsulfonyl-D-SerSer-4-amidinobenzylamide (inhibitor 26), inhibits uPA with a K i of 20 nM. This inhibitor was used in a fibrosarcoma model in nude mice using lacZ-tagged human HT1080 cells, to prevent experimental lung metastasis formation. Compared with control (100%), an inhibitor dose of 2 ؋ 1.5 mg/kg/day reduced the number of experimental metastases to 4.6 ؎ 1%. Under these conditions inhibitor 26 also significantly prolonged survival. All mice from the control group died within 43 days after tumor cell inoculation, whereas 50% of mice from the inhibitor-treated group survived more than 117 days. This study demonstrates that the specific inhibition of uPA by these inhibitors may be a useful strategy for the treatment of cancer to prevent metastasis.The detachment of malignant cells from the primary tumor and their subsequent migration within the surrounding tissue, including intravasation and extravasation into blood and lymph vessels, leads to tumor dissemination and the formation of metastases at distant loci. Whereas a solid tumor can be removed by surgery or treated by radio-, chemo-, or hormone therapy, invasive tumor cells that have spread over the whole body can form secondary tumors leading to poor prognosis or death of cancer patients. Several proteases, such as matrix metalloproteases, the cysteine proteases cathepsin B and L, the aspartyl protease cathepsin D, and serine proteases, e.g. plasmin and uPA, 1 are involved at multiple stages during growth, invasion and progression of tumors, including metastases formation (1). High levels of expression of these proteases often correlate with poor prognosis for cancer patients (2). However, in several clinical cancer trials with different types of nonspecific matrix metalloprotease inhibitors, disappointing results with poor benefit and severe side effects were observed (3). This stimulated the search for alternative proteases with matrix degrading activity as new targets for anti-cancer drugs. An important role in metastasis has been recently ascribed to the plasmin-plasminogen activation system and especially to uPA.Both, uPA and the second endogenous plasminogen activator tPA are...

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The crystal structure of dihydrofolate reductase from Thermotoga maritima: molecular features of thermostability

Dams

Auerbach

Bader

et al. 2000

Journal of Molecular Biology

146

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Uwe Jacob

The 3.2-Å crystal structure of the human IgG1 Fc fragment–FcγRIII complex

Antibodies to MOG are transient in childhood acute disseminated encephalomyelitis

Closed structure of phosphoglycerate kinase from Thermotoga maritima reveals the catalytic mechanism and determinants of thermal stability

Design of Novel and Selective Inhibitors of Urokinase-type Plasminogen Activator with Improved Pharmacokinetic Properties for Use as Antimetastatic Agents

The crystal structure of dihydrofolate reductase from Thermotoga maritima: molecular features of thermostability

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