Pleiotrophin Gene Therapy for Peripheral Ischemia: Evaluation of Full-Length and Truncated Gene Variants

Pleiotrophin (PTN) is a growth factor with both pro-angiogenic and limited pro-tumorigenic activity. We evaluated the potential for PTN to be used for safe angiogenic gene therapy using the full length gene and a truncated gene variant lacking the domain implicated in tumorigenesis. Mouse myoblasts were transduced to express full length or truncated PTN (PTN or T-PTN), along with a LacZ reporter gene, and injected into mouse limb muscle and myocardium. In cultured myoblasts, PTN was expressed and secreted via the Golgi apparatus, but T-PTN was not properly secreted. Nonetheless, no evidence of uncontrolled growth was observed in cells expressing either form of PTN. PTN gene delivery to myocardium, and non-ischemic skeletal muscle, did not result in a detectable change in vascularity or function. In ischemic hindlimb at 14 days post-implantation, intramuscular injection with PTN-expressing myoblasts led to a significant increase in skin perfusion and muscle arteriole density. We conclude that (1) delivery of the full length PTN gene to muscle can be accomplished without tumorigenesis, (2) the truncated PTN gene may be difficult to use in a gene therapy context due to inefficient secretion, (3) PTN gene delivery leads to functional benefit in the mouse acute ischemic hindlimb model.     

Dimethyl fumarate protects thioacetamide‐induced liver damage in rats: Studies on Nrf2, NLRP3, and NF‐κB

The present study was designed to investigate the hepatoprotective potential of dimethyl fumarate (DMF) against thioacetamide (TAA)‐induced liver damage. Wistar rats were treated with DMF (12.5, 25, and 50 mg/kg/day, orally) and TAA (200 mg/kg intraperitoneally, every third day) for 6 consecutive weeks. TAA exposure significantly reduced body weight, increased liver weight and index, and intervention with DMF did not ameliorate these parameters. DMF treatment significantly restored TAA‐induced increase in the levels of aspartate aminotransferase, alanine aminotransferase, γ‐glutamyl transferase, total bilirubin, uric acid, malondialdehyde, reduced glutathione, and histopathological findings such as inflammatory cell infiltration, deposition of collagen, necrosis, and bridging fibrosis. DMF treatment significantly ameliorated TAA‐induced hepatic stellate cell activation, increase in inflammatory cascade markers (NACHT, LRR, and PYD domains‐containing protein 3; NLRP3, apoptosis‐associated speck like protein containing a caspase recruitment domain; ASC, caspase‐1, nuclear factor‐kappa B; NF‐κB, interleukin‐6), fibrogenic makers (α‐smooth muscle actin; ɑ‐SMA, transforming growth factor; TGF‐β1, fibronectin, collagen 1) and antioxidant markers (nuclear factor (erythroid‐derived 2)‐like factor 2; Nrf2, superoxide dismutase‐1; SOD‐1, catalase). The present findings concluded that DMF protects against TAA‐induced hepatic damage mediated through the downregulation of inflammatory cascades and upregulation of antioxidant status.     

Morphological and molecular screening of rice germplasm lines for low soil P tolerance

Phosphorus (P) is an essential macronutrient to all crops including rice and it plays a key role in various plant activities and development. Low availability of P in the soils negatively, influences rice crop growth and causes significant yield loss. In the present study, we characterized a set of 56 germplasm lines for their tolerance to low soil P by screening them at low soil P and optimum soil P levels along with low soil P tolerant and sensitive check varieties. These lines were genotyped for the presence/absence of tolerant allele with respect to the major low soil P tolerance QTL, Pup1, using a set of locus specific PCR-based markers, viz., K46-1, K46-2, K52 and K46CG-1. High genetic variability was observed for various traits associated with low soil P tolerance. The yield parameters from normal and low soil P conditions were used to calculate stress tolerance indices and classify the genotypes according to their tolerance level. Out of the total germplasm lines screened, 15 lines were found to be tolerant to low soil P condition based on the yield reduction in comparison to the tolerant check, but most of them harbored the complete or partial Pup1 locus. Interestingly, two tolerant germplasm lines, IC216831 and IC216903 were observed to be completely devoid of Pup1 and hence they can be explored for new loci underlying low soil P tolerance.

     

Differentiating three Indian shads by applying shape analysis from digital images

Tenualosa ilisha, T. toli and Hilsa kelee are three Indian shad species of the family Clupeidae. In past, relationships among these shads have been explored in few morphological studies but still remain poorly understood. In this study, 120 specimens of three shad species were collected from the wild and a truss network system of 13 landmarks was interconnected to yield 77 size-adjusted characters. Discriminant function analysis (DFA) produced 13 discriminating variables in delineating the three species. The landmark based morphometric distance between origin of dorsal fin and posterior end of eye was the most important character in discriminating the three species. Three prominent characters extracted from DFA (distance between posterior end of operculum and posterior end of eye, distance between origin of dorsal fin and posterior end of eye and distance between insertion of pelvic fin and end of operculum) were used as traditional morphometric characters and their ratio to standard length were found significant in differentiating the three shad species. The present study strongly supports the efficiency of landmark-based morphological characters generated from digital images in discriminating the species and can be used as a rapid diagnostic tool in recognizing them.     

Amino acids derived benzoxazepines: Design,synthesis and antitumor activity

Two series of new benzoxazepines substituted with different alkyl amino ethyl chains were synthesized comprising synthetic steps of inter and intramolecular Mitsunobu reaction, lithium aluminium hydride (LAH) reduction, debenzylation, bimolecular nucleophilic substitution (S_N2) reaction. The present study investigates the effect of a tyrosine-based benzoxazepine derivative in human breast cancer cells MCF-7 and MDA-MB-231 and in breast cancer animal model. The anti-proliferative effect of 15a on MCF-7 cells was associated with G1 cell-cycle arrest. This G1 growth arrest was followed by apoptosis as 15a dose dependently increased phosphatidylserine exposure, PARP cleavage and DNA fragmentation that are hallmarks of apoptotic cell death. Interestingly, 15a activated components of both intrinsic and extrinsic pathways of apoptosis characterized by activation of caspase-8 and -9, mitochondrial membrane depolarization and increase in Bax/Bcl2 ratio. However, use of selective caspase inhibitors revealed that the caspase-8-dependent pathway is the major contributor to 15a-induced apoptosis. Compound 15a also significantly reduced the growth of MCF-7 xenograft tumors in athymic nude mice. Together, 15a could serve as a base for the development of a new group of effective breast cancer therapeutics.     

Establishment of Agrobacterium tumefaciens-mediated genetic transformation in Dunaliella bardawil

Dunaliella bardawil, a unicellular microalga, grows in relatively high concentrations of salt and has so far been refractory to Agrobacterium-mediated transformation. An inverse relationship between salt concentration and hygromycin resistance was observed. Co-cultivation at 0.2?M NaCl allowed growth of both D. bardawil and A. tumefaciens. Lowering salt concentrations also enabled the use of lower concentrations of hygromycin, the selection agent. Cells resistant to 100?mg?l^?1 hygromycin were selected and growth of Agrobacterium was completely eliminated in these cells using cefotaxime/potassium clavulanate. The concentration of sodium chloride was gradually increased to 1.0?M with simultaneous reduction of hygromycin concentration for better growth of D. bardawil. Agrobacterium was unable to survive in the growth medium used for Dunaliella. Expression of β-glucuronidase (uidA), green fluorescent protein (GFP) and hygromycin phosphotransferase (hpt) in the hygromycin-resistant culture was detected using X-gluc as substrate and Western blotting using GFP antibodies and RT-PCR respectively. Cells growing in 1.0?M NaCl (in the absence of hygromycin) retained their ability to grow in hygromycin even after 18 months of cultivation. These cells expressed GFP and PCR for hpt gene was positive. The stability of the integrated transgene and resistance to hygromycin in three different transformation events were ascertained periodically. Southern blotting of DNA extracted from hygromycin resistant cells (HRC) that were 15–18 months old established the presence of the integrated transgene in the DNA of D. bardawil. Results of the present study substantiate A. tumefaciens-mediated transformation of the unicellular marine alga D. bardawil. Agrobacterium tumefaciens-mediated transgene integration along with the massive outdoor cultivation methods used for D. bardawil may allow the commercial synthesis of secondary metabolites and heterologous proteins.     

Pacemaker Lead Induced Inferior Vena Caval Thrombosis Leading to Portal Hypertension

Inferior vena caval thrombosis is an unusual complication of permanent pacemaker implantation. The clinical presentation due to thrombosis depends on the site of thrombus. We have described here a rare case of pacemaker lead associated thrombosis of inferior vena cava, its diagnostic work up and briefly reviewed the existing literature of this uncommon complication.     

Production,characterization and antimicrobial activities of bio-pigments by Aquisalibacillus elongatus MB592, Salinicoccus sesuvii MB597, and Halomonas aquamarina MB598 isolated from Khewra Salt Range,Pakistan

Hypersaline ecosystems offer unique habitats to microbial populations capable of withstanding extreme stress conditions and producing novel metabolites of commercial importance. Herein, we have characterized for the first time the production of bioactive pigments from newly isolated halophilic bacterial species. Halophilic bacteria were isolated from Khewra Salt Range of Pakistan. Three distinctly colored isolates were selected for pigment production. Selected colonies were identified as Aquisalibacillus elongatus MB592, Salinicoccus sesuvii MB597, and Halomonas aquamarina MB598 based on morphological, biochemical, and physiological evidences as well as 16S rRNA analysis. The optimum pigment production observed at mesophilic condition, nearly neutral pH, and moderate salinity was validated using response surface methodology. Different analytical techniques (UV spectroscopy, infrared spectroscopy, and HPLC) characterized these purified pigments as derivatives of bacterioruberin carotenoids. Antioxidant activity of pigments revealed up to 85% free-radical scavenging activity at the concentration of 30 µg ml⁻¹. Pigments also showed significant antimicrobial activity against Bacillus subtilis, Bacillus pumilus, Enterococcus faecalis, Bacillus cereus, Klebsiella pneumoniae, Alcaligenes faecalis, Pseudomonas geniculata, Enterococcus faecium, Aspergillus fumigatus, Aspergillus flavus, Fusarium solani, and Mucor spp., suggesting potential biomedical applications.

     

Potential of bacterial culture media in biofabrication of metal nanoparticles and the therapeutic potential of the as-synthesized nanoparticles in conjunction with artemisinin against MDA-MB-231 breast cancer cells

In the recent past, various groups have proposed diverse biocompatible methods for the synthesis of metal nanoparticles (NPs). Besides culture biomass, culture supernatants (CS) are increasingly being explored for the synthesis of NPs; however, with the ever-increasing exploration of various CS in the biofabrication of NPs, it is equally important to explore the potential of various culture media (CMs) in the synthesis of metal NPs. Considering these aspects, in the present investigation, we explore the possible applicability of various CMs in the biofabrication of metal NPs. The synthesis of NPs was primarily followed by UV/VIS spectroscopy, and, thereafter, the NPs were characterized by various physiochemical techniques, including EM, EDX, FT_IR, X-ray diffraction, and DLS measurements, and finally, their anticancer potentialities were investigated against breast cancer. In addition, the NPs were examined in conjunction with artemisinin for therapeutic benefits against aggressive and highly metastatic MDA-MB-231 breast cancer cells. Cumulatively, the results of the present study collated the potentials of various bacterial CMs in the biofabrication of metal NPs and ascertained the efficacy of the as-synthesized silver nanoparticles, especially the combinatorial entity as intriguing breast cancer therapeutics. The data of the present study plausibly assist in advancing the therapeutic applicability of the combinatorial amalgam against aggressive and highly metastatic MDA-MB-231 breast cancer cells.