by Gorantla V. Raghuram, Kavita Pal, Gaurav Sriram, Afzal Khan, Ruchi Joshi, Vishalkumar Jadhav, Sushma Shinde, Alfina Shaikh, Bhagyeshri Rane, Harshada Kangne, Indraneel Mittra
Metastatic dissemination following successful treatment of the primary tumour remains a common cause of death. There is mounting evidence that therapeutic interventions themselves may promote development of metastatic disease. We earlier reported that cell-free chromatin particles (cfChPs) released from dying cancer cells are potentially oncogenic. Based on this observation we hypothesized that therapeutic interventions may lead to the release of cfChPs from therapy induced dying cancer cells which could be carried via the blood stream to distant organs to transform healthy cells into new cancers that would masquerade as metastasis. To test this hypothesis, we generated xenografts of MDA-MB-231 human breast cancer cells in severe combined immune-deficient mice, and using immuno-fluorescence and FISH analysis looked for cfChPs in their brain cells. We detected multiple human DNA signals representing cfChPs in nuclei of brain cells of mice which co-localized with eight human onco-proteins. No intact MDA-MB-231 cells were detected. The number of co-localizing human DNA and human c-Myc signals increased dramatically following treatment with chemotherapy, localized radiotherapy or surgery, which could be prevented by concurrent treatment with three different cfChPs deactivating agents. These results suggest that therapeutic interventions lead to the release cfChPs from therapy induced dying cancer cells carrying oncogenes and are transported via the blood stream to brain cells to potentially transform them to generate new cancers that would appear as metastases. cfChPs induced metastatic spread of cancer is preventable by concurrent treatment with agents that deactivate cfChPs.by Muhammad Haroon Aslam, Noor Khan, Mahroze Fatima, Muhammad Afzal Rashid, Simon J. Davies
This study assessed the effect of substituting soybean meal (SBM) with cotton seed meal (CSM) on different biological traits in thaila (Catla catla). Fish (n = 225) with an average initial body weight of 41.53±0.68 g were shifted into hapas (3 (L) x 2 (W) x 1 (D) m) in triplicate (15 fish/replicate). Hapas were divided into five dietary groups: 0CSM, 25CSM, 50CSM, 75CSM, and 100CSM diet treatments were administered diets for a period of 90 days. SBM was replaced by CSM at the levels of 0, 25, 50, 75, and 100%. The results showed that fish survival and growth performance were not affected by the inclusion of CSM in the fish diet up to 50% as a replacement of SBM, but higher replacement levels showed a negative effect. Similarly, body composition and most of the muscle amino acid profiles were not affected significantly (P>0.05) by replacing SBM with CSM. Digestive enzyme activities were significantly (P.05) decreased by increasing the level of CSM in the fish diet. Alanine transaminase (ALT) and aspartate transaminase (AST) levels increased significantly (P.05) with increasing dietary CSM levels, while alkaline phosphatase (ALP) levels remained the same. Malondialdehyde (MDA) and catalase (CAT) activity decreased significantly (P.05), but superoxide dismutase (SOD) activity showed no change. For the intestine, the villus height to villus width ratio and thickness of Tunica muscularis were also better in 25CSM, and their values decreased as the CSM inclusion level increased in the fish diet. In conclusion, SBM could be replaced partially (up to 50%) with CSM without compromising growth performance, whole body proximate composition or immunity of C. catla.by Shafaq Fatima, Ayesha Afzal, Hamna Rashid, Saba Iqbal, Rosheen Zafar, Komal Khalid, Ayman Rauf, Maryam Majeed, Aqsa Malik, Chris G. Carter
This experiment aimed to investigate the effects of partial substitution of crude protein from soybean meal (SBM) with black soldier fly (Hermetia illucens) larvae meal (BSFLM) in juvenile rohu (Labeo rohita) and catla (Catla catla). Four isonitrogenous diets (23% crude protein) were formulated to replace 0% (T0), 40% (T40), 80% (T80) and 100% (T100) crude protein from SBM with BSFLM. Triplicate groups of each species (10 fish per replicate) were fed in an eight week growth experiment. After final sampling (n = 20 fish per dietary group), the remaining fish were exposed to bacterial (Staphylococcus aureus) challenge (0.80 CFU/ml) for 15 days. Rohu fed with BSFLM substituted diets showed significantly higher growth and feed conversion ratio as compared to those in T0. Catla fed with BSFLM substituted diets showed slightly higher growth indices. The growth response of rohu to BSFLM substitution was better than that noted in catla in all groups. The chemical composition, amino acids and fatty acids profile, haematological and biochemical parameters, levels of liver function enzymes measured in T0, T40, T80 and T100 were similar between four dietary groups in both species. However, the maximum value of cholesterol and triglycerides were noted in T100 both in catla and rohu. The values of lauric acid, α-linolenic acid, decosahexanoic acid, n3:n6 fatty acids ratio progressively increased with dietary increase of BSFLM in both species. At end of the growth experiment, the levels of catalase, superoxide dismutase and lysozyme increased linearly with the inclusion of BSFLM in both species while malondialdehyde showed similar values between different groups. However, catalase, and superoxide dismutase increased (T0