Pre-clinical risk assessment and therapeutic potential of antitumor lipopeptide ‘Iturin A’ in an in vivo and in vitro model

Lipopeptides are versatile bio-active weapons having antifungal, antibacterial, antimycoplasma and anticancer properties. In this study, the therapeutic potential and safety assessment of a lipopeptide molecule ‘Iturin A’ were evaluated. Iturin A was found to inhibit in vivo tumor growth in a sarcoma 180 mouse xenograft model. The antitumor efficacy of Iturin A was correlated with increased DNA fragmentation and modulation of CD-31, Ki-67, P-Akt, P-MAPK, apoptotic and anti-apoptotic proteins. Further, safety assessment was carried out in Sprague Dawley rats by 28 days repeated dose (28 days) toxicity and a bio-distribution study. In the toxicity study, Iturin A (10, 20 and 50 mg per kg per day) was administered to the animals for 28 days. Another group was kept for another 14 days without drug exposure after 28 days of treatment to access the reversibility of the toxicity. At the end of the treatment, body weight, food and water intake, organ weight, motility, hematology, serum biochemistry and histopathology of the major organs were evaluated. The bio-distribution of Iturin A was also performed in plasma as well as in different major organs by a well-developed and validated administration of Iturin A radiolabeled with 99mTc. The in vitro cytotoxic effect of Iturin A was also evaluated in BRL-3A rat liver cells. In the treated groups, various toxicities were found in the liver and spleen. However, these adverse effects were transient and reversible after discontinuation of Iturin A treatment. In conclusion, this pre-clinical study offered a preliminary investigation regarding the efficacy and safety assessment of Iturin A

Capra cartilage-derived peptide delivery via carbon nano-dots for cartilage regeneration

Targeted delivery of site-specific therapeutic agents is an effective strategy for osteoarthritis treatment. The lack of blood vessels in cartilage makes it difficult to deliver therapeutic agents like peptides to the defect area. Therefore, nucleus-targeting zwitterionic carbon nano-dots (CDs) have immense potential as a delivery vehicle for effective peptide delivery to the cytoplasm as well as nucleus. In the present study, nucleus-targeting zwitterionic CDs have been synthesized as delivery vehicle for peptides while also working as nano-agents towards optical monitoring of cartilage healing. The functional groups of zwitterion CDs were introduced by a single-step microwave assisted oxidation procedure followed by COL II peptide conjugation derived from Capra auricular cartilage through NHS/EDC coupling. The peptide-conjugated CDs (PCDs) allows cytoplasmic uptake within a short period of time (∼30 m) followed by translocation to nucleus after ∼24 h. Moreover, multicolor fluorescence of PCDs improves (blue, green, and read channel) its sensitivity as an optical code providing a compelling solution towards enhanced non-invasive tracking system with multifunctional properties. The PCDs-based delivery system developed in this study has exhibited superior ability to induce ex-vivo chondrogenic differentiation of ADMSCs as compared to bare CDs. For assessment of cartilage regeneration potential, pluronic F-127 based PCDs hydrogel was injected to rabbit auricular cartilage defects and potential healing was observed after 60 days. Therefore, the results confirm that PCDs could be an ideal alternate for multimodal therapeutic agents

New Distribution Record of Octolasion tyrtaeum (Savigny, 1826) and Octolasion cyaneum (Savigny, 1826) (Family: Lumbricidae) Earthworm Species from Leh-Ladakh Union Territory, India

There are five species of the genus Octolasion Örley, [1] in the family Lumbricidae in the world. In India, only two species Octolasion tyrtaeum [2] and Octolasion cyaneum [2], have been recorded. Leh-Ladakh, an Indian territory, has no previous earthworm records. This study reports two species Octolasion tyrtaeum [2] and Octolasion cyaneum [2], as new records from Leh-Ladakh, India