Your search keyword '"Bracher, Susanne"' showing total 9 results

1. Comparison of the functional properties of trimeric and monomeric CaiT of Escherichia coli

Author

Bracher, Susanne, Hilger, Daniel, Guérin, Kamila, Polyhach, Yevhen, Jeschke, Gunnar, Krafczyk, Ralph, Giacomelli, Giacomo, and Jung, Heinrich

Published

2019

2. Clonal evolution in chronic lymphocytic leukemia is associated with an unmutated IGHV status and frequently leads to a combination of loss of TP53 and TP53 mutation.

Author

Bracher, Susanne, Fuhrmann, Irene, Jeromin, Sabine, Nadarajah, Niroshan, Kern, Wolfgang, Haferlach, Torsten, Haferlach, Claudia, and Stengel, Anna

Abstract

Background: Chromosomal abnormalities and gene mutations determine the prognosis of patients with chronic lymphocytic leukemia (CLL). Genetic lesions can be acquired by clonal evolution (CE) likely correlating with clinical progression. Methods and Results: Samples of 169 CLL patients were analyzed for cytogenetic clonal evolution (CCE) and CE affecting the genes TP53 and SF3B1. Moreover, the mutational status of IGHV and the clinical outcome was evaluated. CCE was observed in 35% of CLL patients. The most frequently gained cytogenetic aberration was a deletion of TP53. Acquired TP53 deletion was more frequent in patients with SF3B1 mutations compared to those without (19% vs. 7%). CCE showed a tendency to occur more frequently in patients with an aberrant karyotype at first investigation than in patients with a normal karyotype. In 73% of patients with CCE (p = 0.002) and 92% of patients with CE affecting the genes TP53 and SF3B1 (p < 0.001) an unmutated IGHV status was present. CCE and CE affecting the genes TP53 and SF3B1 were significantly associated with each other (p < 0.001). In 7% of patients, CE resulted in the co-occurrence of TP53 deletion and TP53 mutation resulting in a significantly shorter overall survival. Conclusions: The most frequently gained cytogenetic aberration during CCE was a deletion of TP53, which was associated with SF3B1 mutations. Moreover, CCE was associated with an unmutated IGHV status. Our results indicate the importance of re-evaluation of the TP53 status during the course of the disease to ensure correct treatment guidance. [ABSTRACT FROM AUTHOR]

Published

2022

3. Core Transmembrane Domain 6 Plays a Pivotal Role in the Transport Cycle of the Sodium/Proline Symporter PutP.

Author

Bracher, Susanne, Schmidt, Claudia C., Dittmer, Sophie I., and Jung, Heinrich

Subjects

*MEMBRANE proteins, *PROLINE, *CRYSTAL structure, *CHROMOSOMAL translocation, *AMINO acids

Abstract

Crystal structures of transporters with a LeuT-type structural fold assign core transmembrane domain 6 (TM6) a central role in substrate binding and translocation. Here, the function of TM6 in the sodium/proline symporter PutP, a member of the solute/sodium symporter family, was investigated. A complete scan of TM6' identified eight amino acids as particularly important for PutP function. Of these residues, Tyr-248, His-253, and Arg-257 impact sodium binding, whereas Arg-257 and Ala-260 may participate in interactions leading to closure of the inner gate. Furthermore, the previous suggestion of an involvement of Trp-244, Tyr-248, and Pro-252 in proline binding is further supported. In addition, substitution of Gly-245, Gly-247, and Gly-250 affects the amount of PutP in the membrane. A Cys accessibility analysis suggests an involvement of the inner half of TM6' in the formation of a hydrophilic pathway that is open to the inside in the absence of ligands and closed in the presence of sodium and proline. In conclusion, the results demonstrate that TM6' plays a central role in substrate binding and release on the inner side of the membrane also in PutP and extend the knowledge on functionally relevant amino acids in transporters with a LeuT-type structural fold. [ABSTRACT FROM AUTHOR]

Published

2016

4. Glu-311 in External Loop 4 of the Sodium/Proline Transporter PutP Is Crucial for External Gate Closure.

Author

Bracher, Susanne, Guérin, Kamila, Polyhach, Yevhen, Jeschke, Gunnar, Dittmer, Sophie, Frey, Sabine, Böhm, Maret, and Jung, Heinrich

Subjects

*PROLINE, *ION transport (Biology), *MEMBRANE proteins, *SUBSTITUTION reactions, *AMINO acid analysis

Abstract

The available structural information on LeuT and structurally related transporters suggests that external loop 4 (eL4) and the outer end of transmembrane domain (TM) 10' participate in the reversible occlusion of the outer pathway to the solute binding sites. Here, the functional significance of eL4 and the outer region of TM10' are explored using the sodium/proline symporter PutP as a model. Glu-311 at the tip of eL4, and various amino acids around the outer end of TM10' are identified as particularly crucial for function. Substitutions at these sites inhibit the transport cycle, and affect in part ligand binding. In addition, changes at selected sites induce a global structural alteration in the direction of an outward-open conformation. It is suggested that interactions between the tip of eL4 and the peptide backbone at the end of TM10' participate in coordinating conformational alterations underlying the alternating access mechanism of transport. Together with the structural information on LeuT-like transporters, the results further specify the idea that common design and functional principles are maintained across different transport families. [ABSTRACT FROM AUTHOR]

Published

2016

5. The Sodium/Proline Transporter PutP of Helicobacter pylori.

Author

Rivera-Ordaz, Araceli, Bracher, Susanne, Sarrach, Sannia, Li, Zheng, Shi, Lei, Quick, Matthias, Hilger, Daniel, Haas, Rainer, and Jung, Heinrich

Subjects

*SODIUM, *PROLINE metabolism, *HELICOBACTER pylori, *GASTRITIS, *STOMACH cancer, *HOMOLOGY (Biochemistry)

Abstract

Helicobacter pylori is cause of chronic gastritis, duodenal ulcer and gastric carcinoma in humans. L-proline is a preferred energy source of the microaerophilic bacterium. Previous analyses revealed that HpputP and HpputA, the genes that are predicted to play a central role in proline metabolism as they encode for the proline transporter and proline dehydrogenase, respectively, are essential for stomach colonization. Here, the molecular basis of proline transport in H. pylori by HpPutP was investigated experimentally for the first time. Measuring radiolabeled substrate transport in H. pylori and E. coli heterologously expressing HpputP as well as in proteoliposomes reconstituted with HpPutP, we demonstrate that the observed proline transport in H. pylori is mediated by HpPutP. HpPutP is specific and exhibits a high affinity for L-proline. Notably, L-proline transport is exclusively dependent on Na+ as coupling ion, i.e., Na+/L-proline symport, reminiscent to the properties of PutP of E. coli even though H. pylori lives in a more acidic environment. Homology model-based structural comparisons and substitution analyses identified amino acids crucial for function. HpPutP-catalyzed proline uptake was efficiently inhibited by the known proline analogs 3,4-dehydro-D,L-proline and L-azetidine-2-carboxylic acid. [ABSTRACT FROM AUTHOR]

Published

2013

6. The Sodium/Proline Transporter PutP of Helicobacter pylori.

Author

Rivera-Ordaz, Araceli, Bracher, Susanne, Sarrach, Sannia, Li, Zheng, Shi, Lei, Quick, Matthias, Hilger, Daniel, Haas, Rainer, and Jung, Heinrich

Subjects

SODIUM, PROLINE metabolism, HELICOBACTER pylori, GASTRITIS, STOMACH cancer, HOMOLOGY (Biochemistry)

Abstract

Helicobacter pylori is cause of chronic gastritis, duodenal ulcer and gastric carcinoma in humans. L-proline is a preferred energy source of the microaerophilic bacterium. Previous analyses revealed that HpputP and HpputA, the genes that are predicted to play a central role in proline metabolism as they encode for the proline transporter and proline dehydrogenase, respectively, are essential for stomach colonization. Here, the molecular basis of proline transport in H. pylori by HpPutP was investigated experimentally for the first time. Measuring radiolabeled substrate transport in H. pylori and E. coli heterologously expressing HpputP as well as in proteoliposomes reconstituted with HpPutP, we demonstrate that the observed proline transport in H. pylori is mediated by HpPutP. HpPutP is specific and exhibits a high affinity for L-proline. Notably, L-proline transport is exclusively dependent on Na+ as coupling ion, i.e., Na+/L-proline symport, reminiscent to the properties of PutP of E. coli even though H. pylori lives in a more acidic environment. Homology model-based structural comparisons and substitution analyses identified amino acids crucial for function. HpPutP-catalyzed proline uptake was efficiently inhibited by the known proline analogs 3,4-dehydro-D,L-proline and L-azetidine-2-carboxylic acid. [ABSTRACT FROM AUTHOR]

Published

2013

7. Identification of a Second Substrate-binding Site in Solute-Sodium Symporters.

Author

Zheng Li, Lee, Ashley S. E., Bracher, Susanne, Heinrich Jung, Paz, Aviv, Kumar, Jay P., Abramson, Jeff, Quick, Matthias, and Lei Shi

Subjects

*VIBRIO parahaemolyticus, *SODIUM, *CARRIER proteins, *NEUROTRANSMITTERS, *CRYSTALLOGRAPHY

Abstract

The structure of the sodium/galactose transporter (vSGLT), a solute-sodium symporter (SSS) from Vibrio parahaemolyticus, shares a common structural fold with LeuT of the neurotransmitter- sodium symporter family. Structural alignments between LeuT and vSGLT reveal that the crystallographically identified galactose-binding site in vSGLT is located in a more extracellular location relative to the central substrate-binding site (S1) in LeuT. Our computational analyses suggest the existence of an additional galactose-binding site in vSGLT that aligns to the S1 site of LeuT. Radiolabeled galactose saturation binding experiments indicate that, like LeuT,vSGLTcan simultaneously bind two substrate molecules under equilibrium conditions. Mutating key residues in the individual substrate-binding sites reduced the molar substrate-toprotein binding stoichiometry to ~1. In addition, the related and more experimentally tractable SSS member PutP (the Na+/proline transporter) also exhibits a binding stoichiometry of 2. Targeting residues in the proposed sites with mutations results in the reduction of the binding stoichiometry and is accompanied by severely impaired translocation of proline. Our data suggest that substrate transport by SSS members requires both substrate-binding sites, thereby implying that SSSs and neurotransmitter-sodium symporters share common mechanistic elements in substrate transport. [ABSTRACT FROM AUTHOR]

Published

2015

8. Homology Model of the Na+/Proline Transporter PutP of Escherichia coli and Its Functional Implications

Author

Olkhova, Elena, Raba, Michael, Bracher, Susanne, Hilger, Daniel, and Jung, Heinrich

Subjects

*FLUORESCEIN, *MOLECULAR models, *ESCHERICHIA coli, *SODIUM channels, *MEMBRANE proteins, *BINDING sites, *AMINO acids

Abstract

Abstract: Na+/solute symporters are essential membrane integrated proteins that couple the flow of Na+ ions driven by electrochemical Na+ gradients to the transport of solutes across biological membranes. Here, we used a combination of molecular modeling techniques and evolutionary conservation analysis to construct and validate a first model of the Na+/proline symporter PutP of Escherichia coli based on the crystal structure of the bacterial Na+/galactose symporter vSGLT. Ligand docking experiments were employed to gain information about residues involved in proline binding. The proposed model is consistent with the available experimental data and was further validated by amino acid substitutions and kinetic and protein chemical analyses. Combination of the results of molecular modeling and functional studies predicts the location and organization of the Na+ and proline binding sites. Remarkably, as proposed computationally and discovered here experimentally, residues Y140, W244, and Y248 of transmembrane segments 4 and 7 are found to be particularly important for PutP function and suggested to participate in proline binding and/or gating. [Copyright &y& Elsevier]

Published

2011

9. Extracellular Loop 4 of the Proline Transporter PutP Controls the Periplasmic Entrance to Ligand Binding Sites.

Author

Raba, Michael, Dunkel, Sabrina, Hilger, Daniel, Lipiszko, Kamila, Polyhach, Yevhen, Jeschke, Gunnar, Bracher, Susanne, Klare, Johann?P., Quick, Matthias, Jung, Heinrich, and Steinhoff, Heinz-Jürgen

Subjects

*EXTRACELLULAR matrix proteins, *PROLINE, *LIGAND binding (Biochemistry), *SODIUM ions, *SPIN labels, *PROTEIN transport

Abstract

Summary: The Na+/proline symporter (PutP), like several other Na+-coupled symporters, belongs to the so-called LeuT-fold structural family, which features ten core transmembrane domains (cTMs) connected by extra- and intracellular loops. The role of these loops has been discussed in context with the gating function in the alternating access model of secondary active transport processes. Here we report the complete spin-labeling site scan of extracellular loop 4 (eL4) in PutP that reveals the presence of two α-helical segments, eL4a and eL4b. Among the eL4 residues that are directly implicated in the functional dynamics of the transporter, Phe314 in eL4b anchors the loop by means of hydrophobic contacts to cTM1 close to the ligand binding sites. We propose that ligand-induced conformational changes at the binding sites are transmitted via the anchoring residue to eL4 and through eL4 further to adjacent cTMs, leading to closure of the extracellular gate. [ABSTRACT FROM AUTHOR]

Published

2014