Friederike Rosenthal scite author profile

Overexpression of the yeast Pdr5 ATP-binding cassette transporter leads to pleiotropic drug resistance to a variety of structurally unrelated cytotoxic compounds. To identify Pdr5 residues involved in substrate recognition and/or drug transport, we used a combination of random in vitro mutagenesis and phenotypic screening to isolate novel mutant Pdr5 transporters with altered substrate specificity. A plasmid library containing randomly mutagenized PDR5 genes was transformed into appropriate drug-sensitive yeast cells followed by phenotypic selection of Pdr5 mutants. Selected mutant Pdr5 transporters were analyzed with respect to their expression levels, subcellular localization, drug resistance profiles to cycloheximide, rhodamines, antifungal azoles, steroids, and sensitivity to the inhibitor FK506. DNA sequencing of six PDR5 mutant genes identified amino acids important for substrate recognition, drug transport, and specific inhibition of the Pdr5 transporter. Mutations were found in each nucleotide-binding domain, the transmembrane domain 10, and, most surprisingly, even in predicted extracellular hydrophilic loops. At least some point mutations identified appear to influence folding of Pdr5, suggesting that the folded structure is a major substrate specificity determinant. Surprisingly, a S1360F exchange in transmembrane domain 10 not only caused limited substrate specificity, but also abolished Pdr5 susceptibility to inhibition by the immunosuppressant FK506. This is the first report of a mutation in a yeast ATP-binding cassette transporter that allows for the functional separation of substrate transport and inhibitor susceptibility.

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Arm Ergometry to Improve Mobility in Progressive Multiple Sclerosis (AMBOS)—Results of a Pilot Randomized Controlled Trial

Heinrich

Rosenthal

Patra

et al. 2021

Front. Neurol.

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Background: Walking disability is one of the most frequent and burdening symptoms of progressive multiple sclerosis (MS). Most of the exercise intervention studies that showed an improvement in mobility performance were conducted in low to moderately disabled relapsing–remitting MS patients with interventions using the legs. However, MS patients with substantial walking disability hardly can perform these tasks. Earlier work has indicated that aerobic arm training might also improve walking performance and could therefore be a therapeutic option in already moderately disabled progressive MS patients.Methods: Patients with progressive MS and EDSS 4–6.5 were randomized using a computer-generated algorithm list to either a waitlist control group (CG) or an intervention group (IG). The IG performed a 12-week home-based, individualized arm ergometry exercise training program. Maximum walking distance as measured by the 6-min walking test (6MWT) was the primary endpoint. Secondary endpoints included aerobic fitness, other mobility tests, cognitive functioning, as well as fatigue and depression.Results: Of n = 86 screened patients, 53 with moderate disability (mean EDSS 5.5, SD 0.9) were included and data of 39 patients were analyzed. Patients in the IG showed strong adherence to the program with a mean of 67 (SD 26.4) training sessions. Maximum work load (Pmax) increased in the training group while other fitness indicators did not. Walking distance in the 6MWT improved in both training and waitlist group but not significantly more in trained patients. Similarly, other mobility measures showed no differential group effect. Cognitive functioning remained unchanged. No serious events attributable to the intervention occurred.Conclusion: Although maximum work load improved, 3 months of high-frequency arm ergometry training of low to moderate intensity could not show improved walking ability or cognitive functioning in progressive MS compared to a waitlist CG.The study was registered at www.clinicaltrials.gov (NCT03147105) and funded by the local MS self-help organization.

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Cmdr1, a Chicken P-Glycoprotein, Confers Multidrug Resistance and Interacts with Estradiol

Edelmann¹,

Duchek²,

Rosenthal³

et al. 1999

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We have cloned from a chicken intestinal cDNA library Cmdr1, the first avian P-glycoprotein. Cmdr1 is 67% and 69% identical to proteins encoded by the human MDR1 and MDR2 genes, respectively. Functional expression of Cmdr1 in both mouse NIH 3T3 and yeast cells demonstrated that Cmdr1 represents the avian ortholog of human Mdr1, since it confers resistance to several anticancer drugs and the fluorescent dye rhodamine 6G. Northern and immunoblot analysis showed that CMDR1 is highly expressed throughout the intestine and in the liver, and to a considerable extent in kidney, brain, lung, heart, eye and follicles. In situ hybridization revealed a cell type-specific expression of CMDR1 in the intestinal epithelium, with high levels in the villi of the small and large intestine as well as crypt cells. These data suggest that Cmdr1 could play a role in intestinal detoxification. Most interestingly, immunoblotting showed that Cmdr1 is also expressed in ovarian tissues, particularly in theca cells, the major site for ovarian estrogen production in birds. Indeed, competition experiments indicated that Cmdr1 interacts with estradiol, since rhodamine 6G efflux was efficiently blocked by estradiol in NIH 3T3 cells expressing Cmdr1. Rhodamine efflux was also blocked by PSC-833, a specific inhibitor of steroid-transporting P-glycoproteins from mammalian cells. We propose that Cmdr1 in ovarian cells could be involved in the cell type-specific transport or release of estrogen that is essential for avian follicular development.

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Cloning and functional expression of a neuronal calcium channel beta subunit from house fly (Musca domestica).

Grabner

Wang

Mitterdorfer

et al. 1994

Journal of Biological Chemistry

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