Cardioprotective potential of anthocyanin rich red cabbage extract (ARCE) was assessed in H2O2 treated rat neonatal cardiomyoblasts (H9c2 cells) and isoproterenol (ISO) induced rodent model of myocardial infarction. H2O2 treated H9c2 cells recorded cytotoxicity (48–50%) and apoptosis (57.3%), the same were reduced in presence of ARCE (7–10% & 12.3% respectively). Rats pretreated with ARCE for 30 days followed by ISO treatment recorded favourable heart: body weight ratio as compared to ISO treated group. Also, the mRNA levels of enzymatic antioxidants (sod and catalase) and apoptotic genes (bax and bcl-2) in ARCE+ISO treated group were similar to the control group suggesting that ARCE pretreatment prevents ISO induced depletion of enzymatic antioxidants and apoptosis. Histoarchitecture of ventricular tissue of ISO treated group was marked by infracted areas (10%) and derangement of myocardium whereas, ARCE+ISO treated group (4.5%) recorded results comparable to control (0%). ARCE+ISO treated group accounted for upregulation of caveolin-3 and SERCA2a expression as compared to the ISO treated group implying towards ARCE mediated reduction in membrane damage and calcium imbalance. Molecular docking scores and LigPlot analysis of cyanidin-3-glucoside (-8.7 Kcal/mol) and delphinidin-3-glucoside (-8.5 Kcal/mol) showed stable hydrophobic and electrostatic interactions with β1 adrenergic receptor. Overall this study elucidates the mechanism of ARCE mediated prevention of experimentally induced myocardial damage.
Magnetic iron oxide nanoparticles (IONs) display the ability to cross blood - brain barrier and are envisioned as diagnostic and therapeutic applications, but there are few studies on their potential embryonic toxicity in higher vertebrates. This study investigates interaction of IONs with egg albumen and its subsequent toxicity on chicken embryo. Physicochemical interactions of IONs with egg albumen revealed alterations in friccohesity and secondary structural changes due to weak Vander Waals forces. Toxicity assessment of IONs (10, 25, 50, 100, and 200 µg/ml doses) on chicken embryo accounted for 100% mortality at 200 µg/ml dose due to Fe ions overload. However, lower doses (50 and 100 µg/ml) recorded decrement in whole weights and crown-rump lengths of chicken embryo possibly due to ION-albumen interactions. Histology of brain tissue revealed degeneration of neurons (50-60%) at 10-100 µg/ml dose range of IONs. Toxicity studies of IONs with diverse animal models are needed to set a toxicity benchmark for preventing embryonic toxicity prior to its use in biomedical applications. This is the first study on toxicity assessment of IONs in chicken embryo.
Titanium dioxide nanoparticles (TiO2 NPs) are among abundantly used metal oxide NPs but their interactions with biomolecules and subsequent embryonic toxicity in higher vertebrates is not extensively reported. Physicochemical interactions of TiO2 NPs with egg albumen reveals that lower doses of TiO2 NPs (10 and 25 µg/ml) accounted for higher friccohesity and activation energy but an increment in molecular radii was recorded at higher doses (50 and 100 µg/ml). FTIR analysis revealed conformational changes in secondary structure of egg albumen as a result of electrostratic interactions between egg albumen and TiO2 NPs. The morphometric data of chicken embryo recorded a reduction at all the doses of TiO2 NPs, but toxicity and developmental deformity (omphalocele and flexed limbs) were recorded at lower doses only. Inductively coupled plasma optical emission spectrometry (ICP-OES) confirmed presence of Ti in chicken embryos. mRNA levels of genes involved in canonical and non-canonical Wnt signaling were lowered following TiO2 NPs treatment resulting in free radical mediated disruption of lateral plate mesoderm and somite myogenesis. Conformational changes in egg albumen and subsequent developmental deformity in chicken embryo following TiO2 NPs treatment warrants detailed studies of NP toxicity at lower doses prior to their biomedical applications.
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