FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2557869669> ?p ?o ?g. }

• W2557869669 abstract "Piperidine derivatives are essential heterocyclic compounds that have beneficial roles in the medical and commercial sector. They can be isolated from plant material and can be chemically synthesised using simple cost efficient methods. Piperidines and their derivatives are clinically used to prevent postoperative vomiting, facilitate radiological evaluation, correct gastrointestinal function as well as speed up gastric emptying before anaesthesia. Piperidine derivatives also demonstrate a wide spectrum of biological activities which include; antimicrobial, anticancer, anti- TB, anti-HIV, anti-inflammatory, analgesic, anti-influenza, anti-inflammatory and antitumor activity. The properties of piperidine derivatives depend on the nature of the side chains and their orientation. Based on the promising data that demonstrated the synergistic effects of biological agents with piperidine derivatives, the aim of our research is to determine the pharmacological activities, i.e. (i) antimicrobial activity, (ii) anti-inflammatory, (iii) anti-oxidant activity, (iv) cytotoxicity, and (v) biosafety of six piperidine derivatives, PM1 to PM6. All six piperidine derivatives (PM1-PM6) screened for antimicrobial activity exhibit characteristics of varying degrees of microbial inhibition against some Gram-positive and Gram-negative bacteria (B. cereus, B. subtilis, E. coli, S. aureus, Kl. Pneumonia, M. liuteus and P. aurenginosa) with the exception of B. polymixa, S. marcescens and S. faecalis. Certain piperidine derivatives did not demonstrate high inhibition activity towards the fungal strains, with inhibition only shown against four fungal species; A. niger, A. flavus, C. albicans and S. cerevisiae. Thus it is proposed that minor changes could be made to the structure of the compounds so that they can alter the effect that the compounds have on the specific fungi strains. With regard to antioxidant activity it is noted that the concentrations of the test compounds are directly proportional to the percentage of scavenging capacity. In comparison of the piperidine derivatives (PM1-PM6) to Rutin (reference standard), it was illustrated that Rutin displayed the best antioxidant activity. All six piperidine derivatives (PM1-PM6) showed greater than 50% anti-inflammatory activity, whilst the anti-inflammatory reference standard NCGA displayed the greatest activity in comparison to the piperidine derivatives tested. The safety of the piperidine derivatives was tested by assaying cytotoxicity, against melanoma, MCF7 cancer cells and normal fibroblasts as well as Brine shrimp lethality assay. All piperidine derivatives demonstrated high cytotoxicity activity against both cancer cell lines (melanoma and MCF7) and around 50 – 52% cytotoxicity against healthy cells. Chloro substitution of the phenyl ring increases cytotoxicity of compounds (Aerluri et al., 2012). This compound can be used in the treatment of cancer cells while inhibiting 50% of normal cells. All six piperidine derivatives (PM1-PM6) were also tested for toxicity against Artemia salina in a brine shrimp lethality assay. Piperidine derivatives exhibited varying degree of toxic activity towards the shrimp, with all derivatives displaying ± 50% toxic activity at 1000 µg/mL. These results reveal a directly proportional relationship between concentration of drug and toxicity. It remains a future research objective to modify these piperidine compounds (PM1-PM6) chemically to produce more derivatives for further biological evaluation. All the studied piperidine compounds have possible leads for optimization to carry out pre-clinical trials. We can conclude that the substitution of different side chains on the piperidine nucleus results in varying degree of pharmacological activity. Also, compounds containing the substitution of a chloro group at position 4 and a fluoro group at position 2 on the phenyl ring attached to carbon 2 and 6 on the piperidine nucleus resulted in high pharmacological activity. This good pharmacological activity was also exhibited by compounds containing substitutions of a methoxy group at position 3 on the phenyl ring attached to carbon 1 and 6 on the piperidine nucleus. Compounds containing a methoxy group positioned at carbon 4 on the phenyl ring which is attached to carbon 1 and 4 on the piperidine nuleus presented low pharmacological activity. Low activity was also exhibited by compounds containing substitution of a cyano group at position 4 on the phenyl ring which is attached to carbon 2 and 6 on the piperidine ring and a methyl group at position 4 on the phenyl group attached to a nitrogen at position 1 on the piperidine nucleus." @default.
• W2557869669 created "2016-12-08" @default.
• W2557869669 creator A5024603402 @default.
• W2557869669 date "2021-08-02" @default.
• W2557869669 modified "2023-09-26" @default.
• W2557869669 title "Pharmacological screening of synthetic piperidine derivatives" @default.
• W2557869669 cites W12293885 @default.
• W2557869669 cites W1481984111 @default.
• W2557869669 cites W1508966010 @default.
• W2557869669 cites W1531256442 @default.
• W2557869669 cites W1536946108 @default.
• W2557869669 cites W1552267890 @default.
• W2557869669 cites W1638542732 @default.
• W2557869669 cites W1834115361 @default.
• W2557869669 cites W1897747446 @default.
• W2557869669 cites W1949331954 @default.
• W2557869669 cites W1967745987 @default.
• W2557869669 cites W1972021402 @default.
• W2557869669 cites W1972582268 @default.
• W2557869669 cites W1972748529 @default.
• W2557869669 cites W1974157269 @default.
• W2557869669 cites W1978022646 @default.
• W2557869669 cites W1985891998 @default.
• W2557869669 cites W1993690375 @default.
• W2557869669 cites W1999442456 @default.
• W2557869669 cites W2004724975 @default.
• W2557869669 cites W2005510063 @default.
• W2557869669 cites W2011951590 @default.
• W2557869669 cites W2013574413 @default.
• W2557869669 cites W2015884448 @default.
• W2557869669 cites W2017012792 @default.
• W2557869669 cites W2018849208 @default.
• W2557869669 cites W2019424048 @default.
• W2557869669 cites W2022803309 @default.
• W2557869669 cites W2022993480 @default.
• W2557869669 cites W2034046060 @default.
• W2557869669 cites W2041430556 @default.
• W2557869669 cites W2042124256 @default.
• W2557869669 cites W2048703052 @default.
• W2557869669 cites W2052323648 @default.
• W2557869669 cites W2054089709 @default.
• W2557869669 cites W2060737037 @default.
• W2557869669 cites W2061933401 @default.
• W2557869669 cites W2067595614 @default.
• W2557869669 cites W2069490470 @default.
• W2557869669 cites W2071428363 @default.
• W2557869669 cites W2074509460 @default.
• W2557869669 cites W2076652631 @default.
• W2557869669 cites W2078393760 @default.
• W2557869669 cites W2079396449 @default.
• W2557869669 cites W2082005760 @default.
• W2557869669 cites W2092680402 @default.
• W2557869669 cites W2100390166 @default.
• W2557869669 cites W2114918609 @default.
• W2557869669 cites W2118585910 @default.
• W2557869669 cites W2128984725 @default.
• W2557869669 cites W2136947638 @default.
• W2557869669 cites W2150295443 @default.
• W2557869669 cites W2155448001 @default.
• W2557869669 cites W2157098397 @default.
• W2557869669 cites W2157226675 @default.
• W2557869669 cites W2160517862 @default.
• W2557869669 cites W2163446105 @default.
• W2557869669 cites W2163503240 @default.
• W2557869669 cites W2167854477 @default.
• W2557869669 cites W2177485851 @default.
• W2557869669 cites W2185167547 @default.
• W2557869669 cites W2189258169 @default.
• W2557869669 cites W2199052448 @default.
• W2557869669 cites W2215868711 @default.
• W2557869669 cites W2314484349 @default.
• W2557869669 cites W2419455487 @default.
• W2557869669 cites W2485799123 @default.
• W2557869669 cites W2949200032 @default.
• W2557869669 cites W2949933476 @default.
• W2557869669 cites W2950220437 @default.
• W2557869669 cites W2952174653 @default.
• W2557869669 cites W2952328571 @default.
• W2557869669 cites W29802411 @default.
• W2557869669 cites W2187999509 @default.
• W2557869669 cites W2188923793 @default.
• W2557869669 doi "https://doi.org/10.51415/10321/1734" @default.
• W2557869669 hasPublicationYear "2021" @default.
• W2557869669 type Work @default.
• W2557869669 sameAs 2557869669 @default.
• W2557869669 citedByCount "0" @default.
• W2557869669 crossrefType "dissertation" @default.
• W2557869669 hasAuthorship W2557869669A5024603402 @default.
• W2557869669 hasBestOaLocation W25578696691 @default.
• W2557869669 hasConcept C116073593 @default.
• W2557869669 hasConcept C178790620 @default.
• W2557869669 hasConcept C185592680 @default.
• W2557869669 hasConcept C202751555 @default.
• W2557869669 hasConcept C2777118263 @default.
• W2557869669 hasConcept C2780373777 @default.
• W2557869669 hasConcept C2781462491 @default.
• W2557869669 hasConcept C4937899 @default.
• W2557869669 hasConcept C523546767 @default.
• W2557869669 hasConcept C54355233 @default.
• W2557869669 hasConcept C55493867 @default.

• next