Considerations on Structure-Activity Relationships with Mengovirus of Substituted 5-Amino-4-Cyanopyrazoles

Willitzer, Horst; Tonew, M; Lippmann, E.

doi:10.1128/aac.9.3.367

Cited by 3 publications

(4 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The (4) z 5. compounds failed to inactivate cell-free virus or to influence virus adsorption or penetration. Maximum inhibition of virus yield was found after application of compound from 0 to 2 h after infection.…”

Section: Discussionmentioning

confidence: 99%

“…Substituted 5-amino-4-cyanopyrazoles exhibited an antiviral activity against mengovirus in vitro which varied with the length of the side chains as just described (4). In the present study we have selected a number of these compounds in order to investigate their mode of action on mengovirus replication in FL cells.…”

mentioning

confidence: 99%

“…FL cell cultures, mengovirus, and test compounds were the same as described in the accompanying communication (4).…”

mentioning

confidence: 99%

“…To study the timedependent effect of substituted pyrazoles on virus multiplication, the replication cycle of mengovirus was performed in the same manner as described in the accompanying paper (4 …”

mentioning

confidence: 99%

See 3 more Smart Citations

Mode of Action In Vitro Against Mengovirus of Substituted 5-Amino-4-Cyanopyrazoles

Tonew

Lippmann

Willitzer

1976

Antimicrob Agents Chemother

Self Cite

View full text Add to dashboard Cite

Substituted amino pyrazoles were found to exhibit plaque reduction and inhibition of the cytopathic effect of mengovirus on FL cells. Their antiviral activity was not caused by a virucidal effect or by inhibition of viral adsoprtion or penetration but by suppression of the virus multiplication. During a one-step growth cycle maximum suppression of virus yield occurred after compound addition from 0 to 2 h after infection. Progressively less viral inhibition appeared when compound was applied during the later part of virus replication. The antiviral effect was reversible by removal of the compound, and no inhibitorresistant period occurred.Substituted 5-amino-4-cyanopyrazoles exhibited an antiviral activity against mengovirus in vitro which varied with the length of the side chains as just described (4). In the present study we have selected a number of these compounds in order to investigate their mode of action on mengovirus replication in FL cells.MATERIALS AND METHODS FL cell cultures, mengovirus, and test compounds. FL cell cultures, mengovirus, and test compounds were the same as described in the accompanying communication (4).Plaque reduction test. FL cell monolayers (4 x 106 to 5 x 106 cells) were infected with approximately 200 plaque-forming units (PFU)/culture. After virus adsorption and removal of the unadsorbed virus, an agar overlay containing different concentrations of compound was added. The cultures were incubated at 37 C for 2 days and then stained with neutral red, and the plaques were counted. Plaque reduction in treated versus untreated cultures was calculated as a percentage.Tube titration test. FL cell tubes cultures (4 x 105 cells) were inoculated with 10-fold virus dilutions, supplemented with different concentrations of compound in maintenance medium, and incubated at 37 C. On days 2 and 5, the treated and untreated tubes were examined microscopically for cytopathic effects. The mean tissue culture infective doses (TCID50) were calculated by the method of Reed and Muench (1). Titer reductions were expressed as differences from the control.Investigations on the mode of action. Testing the effects of compounds on cell-free virus and on viral adsorption and penetration was carried out as described (2, 3). The virucidal effect of the test substances was determined as follows: 5 x 104 TCID50 of virus in 2 ml of maintenance medium was incubated with compound at 37 C for 22 h. Thereafter, the infectious virus titer was estimated by end point dilution and compared with the titer of an untreated control.To determine the compound effect on viral adsorption, monolayers of 4 x 10' to 5 x 106 cells were incubated with 8 x 103 PFU of virus for 1 h at 4 C in the presence of compound. Thereafter the PFU titer of the unadsorbed virus was determined and compared with an untreated control. The effect of test substances on viral penetration was determined as follows: FL cultures of4 x 106 to 5 x 106 cells were infected with 40 PFU of virus per flask and incubated at 4 C for 1 h. Unadsorbed virus was remove...

show abstract

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

See 2 more Smart Citations

Mode of Action In Vitro Against Mengovirus of Substituted 5-Amino-4-Cyanopyrazoles

Tonew

Lippmann

Willitzer

1976

Antimicrob Agents Chemother

Self Cite

View full text Add to dashboard Cite

show abstract

A facile synthesis of certain 4‐ and 4,5‐disubstituted 1‐β‐d‐ribofuranosylpyrazoles

Bhattacharya¹,

Robins²,

Revankar³

1990

Journal of Heterocyclic Chem

View full text Add to dashboard Cite

A number of pyrazole ribonucleosides, structurally related to AICA riboside and ribavirin have been prepared and evaluated for their biological activity in vitro. Deisopropylidenation of 5‐amino‐1‐(2,3‐O‐isopropylidene‐β‐D‐ribofuranosyl)pyrazole‐4‐carbonitrile (6) with aqueous trifluoroacetic acid gave 5‐amino‐1‐(β‐D‐ribofuranosyl)pyrazole‐4‐carbonitrile (7). Conventional transformation of the carbonitrile function of 7 gave the AICA riboside congener (2) and related 5‐amino‐1‐(β‐D‐ribofuranosyl)‐pyrazoles (8–10). Acetylation of 7 at low temperature gave the versatile intermediate 5‐amino‐1‐(2,3,5‐tri‐O‐acetyl‐β‐D‐ribofuranosyl)pyrazole‐4‐carbonitrile (15). Non‐aqueous diazotization of 15 with isoamylnitrite in dibromomethane or diiodomethane gave the corresponding C5‐bromo 13 and C5‐iodo 16 derivatives. Compounds 13 and 16 were subsequently transformed into 5‐bromo‐1‐(β‐D‐ribofuranosyl)pyrazole‐4‐carboxamide (11) and the 5‐iodo analog 25. However, a similar nonaqueous diazotization of 15 in dichloromethane afforded the deaminated product 1‐(2,3,5‐tri‐O‐acetyl‐β‐D‐ribofuranosyl)pyrazole‐4‐carbonitrile (22). Treatment of 22 with ammonium hydroxide/hydrogen peroxide gave the ribavirin congener 1‐(β‐D‐ribofuranosyl)pyrazole‐4‐carboxamide (18). Similar treatment of 22 with hydrogen sulfide in pyridine or hydroxylamine in ethanol gave the 4‐thiocarboxamide 19 and 4‐carboxamidoxime 20 derivatives, respectively. Catalytic hydrogenation of 20 afforded 1[β‐D‐ribofuranosyl)pyrazole‐4‐carboxamidine (21). These pyrazole nucleosides are devoid of any significant antiviral or antitumor activity in vitro.

show abstract

Design, synthesis, and high-throughput in vitro anti-cancer evaluation of novel 4-aminopyrazolo[3,4-d]pyrimidine derivatives: potential anti-cancer candidates against UO-31 renal cancer cells

Dash,

Vaddamanu,

Hawsawi

et al. 2024

RSC Adv.

View full text Add to dashboard Cite

show abstract

Considerations on Structure-Activity Relationships with Mengovirus of Substituted 5-Amino-4-Cyanopyrazoles

Cited by 3 publications

References 6 publications

Mode of Action In Vitro Against Mengovirus of Substituted 5-Amino-4-Cyanopyrazoles

Mode of Action In Vitro Against Mengovirus of Substituted 5-Amino-4-Cyanopyrazoles

A facile synthesis of certain 4‐ and 4,5‐disubstituted 1‐β‐d‐ribofuranosylpyrazoles

Design, synthesis, and high-throughput in vitro anti-cancer evaluation of novel 4-aminopyrazolo[3,4-d]pyrimidine derivatives: potential anti-cancer candidates against UO-31 renal cancer cells

Contact Info

Product

Resources

About