Antioxidant and Antivenom Potential of an Essential Oil, 4-(2-Oxo-propyl)-cyclopentane-1,3-dione, and Allantoin Derived from the Polyherbal Combination of Aristolochia indica L. and Piper nigrum L.

The goal of this study was to identify new compounds from a methanol extract of a polyherbal combination of Aristolochia indica L. and Piper nigrum L. (MECAIPN), two traditional medicinal plants used to cure envenomation, as well as to assess their antioxidant and antivenom properties. MECAIPN yielded EA1 (an essential oil), AA2 (4-(2-oxo-propyl)-cyclopentane-1,3-dione), and W3 ((2,5-dioxo-imidazolidin-4-yl)-urea) (Allantoin). Although EA1 had stronger radical scavenging activity, AA2 had higher DPPH and ferric ion radical scavenging activity, and W3 had higher molybdenum ion radical scavenging activity due to being a single molecule, the binding investigation revealed that EA1 has a greater Stern-Volmer quenching constant (Ksv) than AA2 and W3. Synchronous measurements indicated that EA1, AA2, and W3 bind to tryptophan and tyrosine residues in venom, causing denaturation of the secondary structure of the residue. Finally, the current study concludes that EA1 has more therapeutic antivenom potential, which could be related to the synergism of chemicals found in it. When it came to single compounds, AA2 had stronger antioxidant and antivenom capabilities than W3. To understand the mechanism of action and manufacture the green antivenom medication, more testing of the EA1 and compounds remains required.

Evaluation of Aristolochia indica L. and Piper nigrum L. methanol extract against centipede Scolopendra moristans L. using Wistar albino rats and screening of bioactive compounds by high pressure liquid chromatography: a polyherbal formulation.

The present study was aimed to explore the anti-venom activity of Aristolochia indica and Piper nigrum plants against the centipede (Scolopendra moristans) envenomation in animal model. In vtiro phytochemical, antioxidant and blocking of proteolysis were carried out by using standard spectrophotometric methods. In vivo anti-venom activity of methanol extracts was determined using Wistar albino rats after fixing lethal and effective doses. The electrolytes, lipid, liver, kidney, hematological parameters were analyzed and histopathology of skin and liver were also examined. Anti-skin cancer by MTT method and HPLC analysis were also carried out. The CAIPN extract showed higher total phenolics (150.65 ± 0.08 mg GAE/g extract) and flavonoids (158.97 ± 0.93 mg RE/g extract) content. Further, the same extract revealed the higher molybdenum reducing, inhibition of lipid peroxidation (80.08 ± 0.22%), DPPH radical scavenging (3.05 µg/mL), and blocking of proteolysis activities (96.45 ± 0.04%). The parameters like hypersensitivity, electrolytes, lipids, blood components, liver and kidney marker of the CAIPN methanol extract (200 mg/kg) treated envenomated rats was remarkable and same as in the normal animals. Such status was also achieved by RBAI and SPN at 600 mg/kg. The histopathological scoring of skin and liver confirmed the venom neutralizing activity of CAIPN. Also, the CAIPN methanol extract was notable in anti-skin cancer activity (208 µg/mL). The presence of the ferulic acid (04 ± 0.09 µg/mg) and quercetin (35.30 ± 0.30 µg/mg) like compounds was confirmed by HPLC analysis. Hence, the present investigation results conclude that the CAIPN was significant in their action and this polyherbal formulation could be considered as a new source for the pharmaceutical industries to develop a new effective, ecofriendly anti-venom drug.

Chemical profiling of Pterolobium hexapetalum leaves by HPLC analysis and its productive wound healing activities in rats.

Research on wound healing agents is one of the developing areas in modern biomedical sciences. Several drugs have been used in the management of wounds and a large variety of treatment modalities are available for wound repair. Among these medicines, herbal origin has been the basis of treatment and cure for healing of wounds. Pterolobium hexapetalum is well known medicinal plant of Caesalpiniaceae family was used by many tribal groups for wound treatment in India. Different extracts of P. hexapetalum leaves are evaluated for its antiradical activity and in vivo wound healing activity by excision, incision, and dead space wound models in Wistar rats, further respective phyto constituents are profiled using High Performance Liquid Chromatography. In this present study methanol extract of leaves depicted the maximum amount of phenolics and flavonoids content and also registered highest DPPH (IC50: 3.40µg/mL), ABTS+(8869.36µM TE/g extract) and Superoxide (87.72%) radical scavenging activity. Methanolic leaf extract are further studied for wound healing property, highest wound contraction percentage and lowest epithelialization period (16.33days) of 5% methanolic extract treated group exhibits highest wound healing activity compare to control group and it was confirmed by histopathology results and scoring analysis. Maximum tensile strain (110.69%) of incision and highest hydroxyproline (16.28mg/g) content of dead space wound model are comparable with standard 5% Neomycin. HPLC employed quantification of phyto constituents explores the presence of catechin (367.54µg/mg), caffeic acid (87µg/mg), rutin (289.20µg/mg), quercetin (239.39µg/mg) and naringenin (24.42µg/mg). From the results leaves of P. hexapetalum significantly stimulate wound contraction, braking strength and hydroxyproline content of treated group. It showed remarkable wound healing activity and may be recommended for treating various type of wound.

Polyphenols rich Passiflora leschenaultii leaves modulating Farnesoid X Receptor and Pregnane X Receptor against paracetamol-induced hepatotoxicity in rats.

The hepatoprotective effect of P. leschenaultii. (DC) leaves was investigated in rats under paracetamol induced oxidative stress. Leaf acetone extract (200 and 400mg/kg) were administered daily via gavage for 14days before paracetamol (2000mg/kg, p.o.) treatment. After the experiment, the levels of serum biochemical parameters and enzymatic antioxidant levels were determined. Furthermore, liver tissues were analyzed histopathologically. Additionally, the molecular docking studies of the identified compounds against PXR and FXR proteins were also performed. The assessment revealed that the acetone extract significantly reduced the elevated levels of SGPT, SGOT and ALP in serum. Moreover, the enzymatic antioxidants such as SOD, CAT and LPO were also retained normally by the plant extract. From histopathological analysis, it was clearly evident that the cellular architecture of plant extract treated rat liver tissues were not affected by the paracetamol induction at the higher dose. The results of docking studies also revealed that the identified compounds showed steric interactions (between nonpolar atoms) with amino acid groups. Collectively, the present study suggests that P. leschenaultii leaves extract protects the liver from paracetamol induced hepatic damage.