Miriam Bach scite author profile

RGD peptides targeting alphav-integrins are promising ligands for the generation of vascular targeting agents. We isolated from phage display RGD motif libraries novel high-affinity cyclic RGD peptides by selection on either endothelial or melanoma cells. Although the starting sequences contained only two cysteine residues flanking the RGD motif, several of the isolated peptides possessed four cysteine residues. A high-affinity peptide (RGD10) constrained by only one disulfide bond was used to generate novel lipopeptides composed of a lipid anchor, a short flexible spacer and the peptide ligand conjugated to the spacer end. Incorporation of RGD10 lipopeptides into liposomes resulted in specific and efficient binding of the liposomes to integrin-expressing cells. In vivo experiments applying doxorubicin-loaded RGD10 liposomes in a C26 colon carcinoma mouse model demonstrated improved efficacy compared with free doxorubicin and untargeted liposomes.

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Human Cytomegalovirus Inactivates the G0/G1-APC/C Ubiquitin Ligase by Cdh1 Dissociation

Wiebusch¹,

Bach²,

Uecker³

et al. 2005

Cell Cycle

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The anaphase promoting complex/cyclosome (APC/C) is an E3 ubiquitin ligase that targets regulators of the cell division cycle for degradation by the 26S proteasome. Discovered as a key regulator of mitosis, the APC/C has more recently been recognized to also play a limiting role in the control of G(0) maintenance, G(1)/S-transition and DNA-replication. Human cytomegalovirus (HCMV) has been shown to interfere with cell cycle regulation at different levels. It can induce an S phase-prone proliferation program in quiescent cells but at the same time this virus directly inhibits competitive cellular DNA replication. Here we show, that human cytomegalovirus (HCMV) inactivates the G(0)/G(1) APC/C rapidly after infection of quiescent fibroblasts, resulting in the untimely stabilization of APC/C substrates. APC/C inactivation is caused by the dissociation of its positive regulator, Cdh1. Surprisingly, this dissociation is independent from known Cdh1 inhibitors, Emi1 and Cyclin A, suggesting that APC/C-Cdh1 inhibition by HCMV is directly caused by a viral protein or an intermediate cellular factor distinct from Emi1 and Cyclin A. Thus, upon infection of quiescent cells HCMV not only activates the E2F-dependent G(1)/S transcription program but also facilitates protein accumulation of APC/C substrates by rapid Cdh1 dissociation.

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Optimized linker sequences for the expression of monomeric and dimeric bispecific single-chain diabodies

Völkel

Korn²,

Bach³

et al. 2001

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Bispecific single-chain diabodies (scDb) consist of the variable heavy and light chain domains of two antibodies connected by three linkers. The structure of an scDb in the V(H)-V(L) orientation is V(H)A-linkerA-V(L)B-linkerM-V(H)B-linkerB-V(L)A, with linkers A and B routinely chosen to be 5-6 residues and linker M 15-20 residues. Here, we applied display of scDb on filamentous phage to analyse the composition of optimal linker sequences. The three linkers were randomized in length and sequence using degenerated triplets coding for only six hydrophilic or aliphatic amino acids (Thr, Ser, Asp, Asn, Gly, Ala). Antigen-binding clones were then isolated by one to two rounds of selection on the two different antigens recognized by the bispecific scDb. Using an scDb directed against carcinoembryonic antigen (CEA) and beta-galactosidase (Gal), we found that monomeric scDb had a preferred length of 15 or more amino acid residues for the middle linker M and of 3-6 residues for the linkers A and B. No obvious bias towards a preferred linker sequence was observed. Reduction of the middle linker below 13 residues led to the formation of dimeric scDb, which most likely results from interchain pairing between all the V(H) and V(L) domains. Dimeric scDb were also formed by fragments possessing a long linker M and linkers A and B of 0 or 1 residue. We assume that these dimeric scDb are formed by intrachain pairing of the central variable domains and interchain pairing of the flanking variable domains. Thus, the latter molecules represent a novel format of bispecific and tetravalent molecules. The described strategy allows for the isolation of both optimized and minimal linker sequences for the assembly of monomeric or dimeric single-chain diabodies.

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Isolation from phage display libraries of lysine-deficient human epidermal growth factor variants for directional conjugation as targeting ligands

Bach¹,

Hölig²,

Schlosser³

et al. 2003

Protein Engineering Design and Selection

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Ligand-targeted anticancer therapeutics represent an opportunity for the selective and efficient delivery of drugs to tumours. The chemical coupling of ligands to drugs or drug carrier systems is, however, often hampered by the presence of multiple reactive groups within the ligand, for example, epsilon-NH(2) groups in lysine side chains. In this paper, we describe the isolation by phage display of human epidermal growth factor (EGF) variants without lysine and a reduced number of arginine residues. The selection on A431 carcinoma cells also revealed that R41 is indispensable for EGF binding activity as all EGF variants contained an arginine residue at this position. One EGF variant (EGFm1) with K28Q, R45S, K48S and R53S mutations was expressed in bacteria and showed an identical binding activity as wild-type EGF. EGFm1 could be labelled with fluorescein isothiocyanate demonstrating the accessibility of the N-terminal amino group for coupling reagents. Furthermore, coupling of EGFm1 to PEGylated liposomes resulted in target cell-specific binding and internalization of the liposomes. These human EGF variants should be advantageous for the generation of anticancer therapeutics targeting the EGF receptor, which is overexpressed by a wide variety of different tumours.

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Miriam Bach

Novel RGD lipopeptides for the targeting of liposomes to integrin-expressing endothelial and melanoma cells

Human Cytomegalovirus Inactivates the G0/G1-APC/C Ubiquitin Ligase by Cdh1 Dissociation

Optimized linker sequences for the expression of monomeric and dimeric bispecific single-chain diabodies

Isolation from phage display libraries of lysine-deficient human epidermal growth factor variants for directional conjugation as targeting ligands

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