Your search keyword '"Ralf Gerhard"' showing total 2 results

1. The Repetitive Oligopeptide Sequences Modulate Cytopathic Potency but Are Not Crucial for Cellular Uptake of Clostridium difficile Toxin A

Author

Alexandra Olling, Ingo Just, Helma Tatge, Ralf Gerhard, Sebastian Goy, and Florian Hoffmann

Subjects

Mutant, Pathogenesis, medicine.disease_cause, Toxicology, Enterotoxins, Mice, Cricetinae, Molecular Cell Biology, Toxin Binding, Internalization, Cytoskeleton, media_common, Multidisciplinary, 3T3 Cells, Cellular Structures, Endocytosis, Cell biology, Bacterial Pathogens, Host-Pathogen Interaction, Medical Microbiology, Medicine, HT29 Cells, Oligopeptides, Intracellular, Research Article, media_common.quotation_subject, Science, Bacterial Toxins, Blotting, Western, Clostridium difficile toxin A, RAC1, CHO Cells, Biology, Microbiology, Cricetulus, medicine, Animals, Humans, Secretion, Mode of action, Microbial Pathogens, DNA Primers, Gram Positive, Base Sequence, Toxin, Molecular biology, Microscopy, Fluorescence

Abstract

The pathogenicity of Clostridium difficile is primarily linked to secretion of the intracellular acting toxins A (TcdA) and B (TcdB) which monoglucosylate and thereby inactivate Rho GTPases of host cells. Although the molecular mode of action of TcdA and TcdB is well understood, far less is known about toxin binding and uptake. It is acknowledged that the C-terminally combined repetitive oligopeptides (CROPs) of the toxins function as receptor binding domain. The current study evaluates the role of the CROP domain with respect to functionality of TcdA and TcdB. Therefore, we generated truncated TcdA devoid of the CROPs (TcdA(1-1874)) and found that this mutant was still cytopathic. However, TcdA(1-1874) possesses about 5 to 10-fold less potency towards 3T3 and HT29 cells compared to the full length toxin. Interestingly, CHO-C6 cells even showed almost identical susceptibility towards truncated and full length TcdA concerning Rac1 glucosylation or cell rounding, respectively. FACS and Western blot analyses elucidated these differences and revealed a correlation between CROP-binding to the cell surface and toxin potency. These findings refute the accepted opinion of solely CROP-mediated toxin internalization. Competition experiments demonstrated that presence neither of TcdA CROPs nor of full length TcdA reduced binding of truncated TcdA(1-1874) to HT29 cells. We assume that toxin uptake might additionally occur through alternative receptor structures and/or other associated endocytotic pathways. The second assumption was substantiated by TER measurements showing that basolaterally applied TcdA(1-1874) exhibits considerably higher cytotoxic potency than apically applied mutant or even full length TcdA, the latter being almost independent of the side of application. Thus, different routes for cellular uptake might enable the toxins to enter a broader repertoire of cell types leading to the observed multifarious pathogenesis of C. difficile.

Published

2011

2. Vascular Surgery, Microsurgery and Supramicrosurgery for Treatment of Chronic Diabetic Foot Ulcers to Prevent Amputations.

Author

Schirmer, Steffen, Ritter, Ralf-Gerhard, and Fansa, Hisham

Subjects

*TREATMENT of diabetic foot, *VASCULAR surgery, *MICROSURGERY, *FOOT amputation, *OSTEOMYELITIS, *REVASCULARIZATION (Surgery), *PREVENTION

Abstract

Introduction:Diabetic foot ulcers occur in approximately 2,5% of patients suffering from diabetes and may lead to major infections and amputation. Such ulcers are responsible for a prolonged period of hospitalization and co- morbidities caused by infected diabetic foot ulcers. Small, superficial ulcers can be treated by special conservative means. However, exposed bones or tendons require surgical intervention in order to prevent osteomyelitis. In many cases reconstructive surgery is necessary, sometimes in combination with revascularization of the foot. There are studies on non surgical treatment of the diabetic foot ulcer. Most of them include patients, classified Wagner 1-2 without infection. Patients presenting Wagner 3D and 4D however are at a higher risk of amputation. The evolution of microsurgery has extended the possibilities of limb salvage. Perforator based flaps can minimize the donorsite morbidity. Patients and Methods:41 patients were treated with free tissue transfer for diabetic foot syndrome and chronic defects. 44 microvascular flaps were needed. The average age of patients was 64.3 years. 18 patients needed revascularization. 3 patients needed 2 microvascular flaps. In 6 cases supramicrosurgical technique was used. Results:There were 2 flap losses leading to amputation. 4 other patients required amputation within 6 months postoperatively due to severe infection or bypass failure. Another 4 patients died within one year after reconstruction. The remaining patients were ambulated. Discussion:Large defects of the foot can be treated by free microvascular myocutaneous or fasciocutaneous tissue transfer. If however, small defects, exposing bones or tendons, are not eligible for local flaps, small free microvascular flaps can be applied. These flaps cause a very low donor site morbidity. Arterialized venous flaps are another option for defect closure. Amputation means reduction of quality of life and can lead to an increased mortality postoperatively. [ABSTRACT FROM AUTHOR]

Published

2013