Karl-Heinz Eisele scite author profile

Since the SARS-CoV-2 pandemic started in late 2019, the search for protective vaccines and for drug treatments has become mandatory to fight the global health emergency. Travel restrictions, social distancing, and face masks are suitable counter measures, but may not bring the pandemic under control because people will inadvertently or at a certain degree of restriction severity or duration become incompliant with the regulations. Even if vaccines are approved, the need for antiviral agents against SARS-CoV-2 will persist. However, unequivocal evidence for efficacy against SARS-CoV-2 has not been demonstrated for any of the repurposed antiviral drugs so far. Amantadine was approved as an antiviral drug against influenza A, and antiviral activity against SARS-CoV-2 has been reasoned by analogy but without data. We tested the efficacy of amantadine in vitro in Vero E6 cells infected with SARS-CoV-2. Indeed, amantadine inhibited SARS-CoV-2 replication in two separate experiments with IC50 concentrations between 83 and 119 µM. Although these IC50 concentrations are above therapeutic amantadine levels after systemic administration, topical administration by inhalation or intranasal instillation may result in sufficient amantadine concentration in the airway epithelium without high systemic exposure. However, further studies in other models are needed to prove this hypothesis.

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Specific inhibitors of auxin transport: Action on tissue segments and in vitro binding to membranes from maize coleoptiles

Depta

Eisele

Hertel

1983

Plant Science Letters

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Analyzing changes of chromatin‐bound replication proteins occurring in response to and after release from a hypoxic block of replicon initiation in T24 cells

Betteraey-Nikoleit

Eisele

Stabenow

et al. 2003

European Journal of Biochemistry

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of in vivo SV40 DNA replication is reversibly suppressed by hypoxia in a state where viral minichromosomes exhibit a nearly complete set of replication proteins. Reoxygenation triggers fast completion and post-translational modifications. Trying to reveal such fast changes of chromatin-bound replication proteins in the much more complex replication of the cellular genome itself, we developed a protocol to extend these studies using the human bladder carcinoma cell line T24, which was presynchronized in G 1 by starvation. Concomitantly with stimulation of the cells by medium renewal, hypoxia was established. This treatment induced T24 cells to contain a large amount of replicons arrested in the 'hypoxic preinitiation state', ready to initiate replication as soon as normal pO 2 was restored. Replicons in other stages of replicative activity were not detectable. Consequently the arrested replicons were rapidly released into synchronous initiation and succeeding elongation. Extraction of T24 nuclei with a Triton X-100 buffer yielded a fraction containing the cellular chromatin, including DNA-bound replication proteins, while unbound proteins were removed. The usefulness of this protocol was tested by the proliferation marker PCNA. We demonstrate here that this protein switches from the remainder cellular protein pool into the Triton-extracted nuclear fraction upon reoxygenation. Employing this protocol, analyses of chromatin-bound MCM2, MCM3, Cdc6 and cdk2 suggests that the 'classical' prereplication complex is already formed during hypoxia.

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Oxygen-dependent Regulation of in VivoReplication of Simian Virus 40 DNA Is Modulated by Glucose

Riedinger

Betteraey-Nikoleit

Hilfrich

et al. 2001

Journal of Biological Chemistry

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Simian virus 40 (SV40)-infected CV1 cells exposed to hypoxia show an inhibition of viral replication. Reoxygenation after several hours of hypoxia results in new initiations followed by a nearly synchronous round of SV40 replication. In this communication, we examined the effect of glucose on inhibition of viral DNA replication under hypoxia. We found that glucose stimulated SV40 DNA replication under hypoxia in two different ways. First, the rate of DNA synthesis, i.e. the fork propagation rate, increased. This effect seemed to be mediated by inhibition of mitochondrial respiration by glucose (Crabtree effect). Inhibition of mitochondrial respiration probably resulted in a higher intracellular oxygen concentration and an activation of oxygen-dependent ribonucleotide reductase, which provides the precursors for DNA synthesis. This glucose effect was consequently strongly dependent on the strength of hypoxia and the extent of intracellular respiration; hypoxic gassing with 10 ppm instead of 200 -400 ppm O 2 or treatment of hypoxic cells with a mitochondrial uncoupler (carbonyl cyanide m-chlorophenylhydrazone) reduced the glucose effect on replication, whereas antimycin A, an inhibitor of respiration, increased it. The second effect of glucose concerned initiation, i.e. stimulation of unwinding of the viral origin. This effect was not influenced by the strength of hypoxia or the extent of cellular respiration and seemed, therefore, not to be mediated through a Crabtree effect. No evidence for a direct correlation between the cellular ATP concentration and the extent of SV40 replication under hypoxia was found. The effect of glucose on replication under hypoxia was not restricted to SV40-infected CV1 cells but was also detectable in HeLa cells. This suggests it to be a mechanism of more general validity.DNA replication in mammalian cells is subject to a fast acting regulation that depends on the O 2 tension in the cellular environment. This regulation results in inhibition of cellular replication when the concentration of O 2 falls below 0.1%. Regulation of cellular replication by O 2 has first been demonstrated for Ehrlich ascites cells (1-4). Further studies revealed that it is also valid for HeLa and CCRF cells (5), suggesting it to be a mechanism of general importance that adapts the cellular DNA replication to the supply of O 2 and other nutrients. This seems to be of particular significance during embryonic growth, wound healing, or tumor cell propagation. Inhibition of replication under hypoxia primarily affects replicon initiation. Additionally, the rate of DNA chain growth is frequently reduced. Readmission of O 2 after several hours of hypoxia reverses the suppression of DNA replication within a few minutes. This remarkably fast response suggests that the O 2 -dependent replication control acts very directly on the replication apparatus.The molecular mechanism of the oxygen-dependent replication control is largely obscure. A reduction of the intracellular concentrations of deoxynucleoside triphosphates, e...

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