Topical atorvastatin ameliorates 12-O-tetradecanoylphorbol-13- acetate induced skin inflammation by reducing cutaneous cytokine levels and NF-jB activation

Nagaraj M. Kulkarni,Milind M. Muley,Mallikarjun S. Jaji,G. Vijaykanth,J. Raghul,Neetin Kumar D. Reddy,Santosh L. Vishwakarma,Navin B. Rajesh,Jeyamurugan Mookkan,Uma Maheswari Krishnan,Shridhar Narayan 대한약학회 2015 Archives of Pharmacal Research Vol.38 No.6

Atorvastatin is a 3-hydroxy-3-methylglutarylcoenzyme-A reductase inhibitor used in the treatment ofatherosclerosis and dyslipidemia. Studies have evaluatedthe utility of statins in the treatment of skin inflammationbut with varied results. In the present study, we investigatedthe effect of atorvastatin on TNF-a release andkeratinocyte proliferation in vitro and in acute and chronic12-O-tetradecanoylphorbol-13-acetate (TPA) induced skininflammation in vivo. Atorvastatin significantly inhibitedlipopolysacharide induced TNF-a release in THP-1 cellsand keratinocyte proliferation in HaCaT cells. In an acutestudy, topical atorvastatin showed dose dependent reductionin TPA induced skin inflammation with highest efficacyobserved at 500 lg/ear dose. In chronic study, topicalatorvastatin significantly reduced TPA induced ear thickness,ear weight, cutaneous cytokines, MPO activity andimproved histopathological features comparable to that ofdexamethasone. Atorvastatin also inhibited TPA stimulatedNF-jB activation in mouse ear. In conclusion, our resultssuggest that atorvastatin ameliorates TPA induced skininflammation in mice at least in part, due to inhibition ofcytokine release and NF-jB activation and may be beneficialfor the treatment skin inflammation like psoriasis.

Substrate bias effects during diamond like carbon film deposition by microwave ECR plasma CVD

R.M. Dey,S.B. Singh,A. Biswas,R.B. Tokas,N. Chand,S. Venkateshwaran,D. Bhattacharya,N.K. Sahoo,S.W. Gosavi,S.K. Kulkarni,D.S. Patil 한국물리학회 2008 Current Applied Physics Vol.8 No.1

Diamond like carbon (DLC) coatings were deposited on silicon(11) substrates by microwave electron cyclotron resonance (ECR)plasma CVD process using a plasma of Ar and CH4 gases under the inuence of DC self bias generated on the substrates by applicationof RF (13.56 MHz) power. DLC coatings were deposited under the varying inuence of DC bias (. 60 V to. 150 V) on the Si substrates.atomic force microscopy (AFM), Hardness and elastic modulus determination technique, Raman spectroscopy, scanning electronmicroscopy (SEM) and contact angle measurement. The results indicate that the lm grown at. 100 V bias has optimised propertieslike high sp3/sp2 ratio of carbon bonding, high refractive index (2.262.17) over wide spectral range 4001200 nm, low roughness of0.8 nm, high contact angle (80.) compared to the lms deposited at other bias voltages (. 60 V and . with each other and nd august explanation under the subplantation model for DLC growth.

Hepatoprotective and antioxidant activities of crude fractions of endophytic fungi of Ocimum sanctum Linn. in rats

Shukla, S.T.,Kulkarni, V.H.,Habbu, P.V.,Jagadeesh, K.S.,Patil, B.S.,Smita, D.M. 경희한의학연구센터 2012 Oriental Pharmacy and Experimental Medicine Vol.12 No.2

Endophytic fungi are a rich source of novel organic compounds with interesting biological activities and a high level of biodiversity. In the present investigation, an attempt has been made to isolate, characterize and screen the Tulsi (Ocimum sanctum Linn.) root fungal endophytic fractions (TRF) for hepatoprotective and antioxidant activities. Endophytic fungi from Ocimum sanctum Linn. roots were isolated and cultured aseptically in PDA media. The full fledged grown fungus cultures were fermented in potato dextrose broth and fractionated using ethyl acetate. TRF-1 and TRF-2 were subjected free radical scavenging activities against 2,2-diphenyl-1-picrylhydrazyl, hydroxyl free radicals and reducing power assay. TRF-1 was found to be potential free radical scavenger with $IC_{50}$ values of $71.83{\mu}g/ml$ for DPPH and $110.85{\mu}g/ml$ for hydroxyl radical respectively. TRF-1 and TRF-2 were further assessed for hepatoprotective activity in $CCl_4$ induced hepatotoxicity in-vivo. Results showed that TRF-1 (200 mg/kg p.o.) and TRF-2 (200 mg/kg p.o.) significantly reversed the actions of carbon tetrachloride induced hepatotoxicity, as evident by restoration of serum AST, ALT, ALP, bilirubin, triglycerides and protein level to normal values as compared to $CCl_4$ treated group. Restoration of altered LPO (p<0.001), GSH (p<0.01) and catalase (p<0.01) by TRF-1 suggests that the hepatoprotective activity may be attributed to its antioxidant action. This was further supported by histopathological studies. TRF-1 was subjected to rDNA sequencing studies by PCR technique. Based on the morphological and molecular characterization, the fungus was identified as Paecilomyces variotti Bain. Therefore, endophytes from medicinal plants represent great potential for the discovery of new pharmacologically active metabolites.

Green approach for hierarchical nanostructured Ag-ZnO and their photocatalytic performance under sunlight

Patil, S.S.,Mali, M.G.,Tamboli, M.S.,Patil, D.R.,Kulkarni, M.V.,Yoon, H.,Kim, H.,Al-Deyab, S.S.,Yoon, S.S.,Kolekar, S.S.,Kale, B.B. Elsevier Science Publishers 2016 CATALYSIS TODAY - Vol.260 No.-

<P>In this study, the synthesis of silver-zinc oxide (Ag-ZnO) nanostructures with a plant-extract-mediated hydrothermal method was investigated. The eco-friendly plant extract Azadirachta indica (Neem) was used as a reducing agent. The X-ray diffraction patterns showed the formation of face-centered cubic (fcc) Ag nanoparticles (NPs) and a wurtzite ZnO structure. An optical study of these nanostructures revealed two absorption edges: one at 393 nm corresponding to ZnO and the other at approximately 440 nm corresponding to Ag. A morphology study showed that hierarchical ZnO nanostructures were decorated with 10-50-nm-diameter Ag NPs. The formation and growth mechanism were also examined. A photoelectrochemical study was performed to investigate the electronic interactions between the ZnO and Ag NPs in the photoanode upon exposure to light. The Ag NPs act as electron acceptors, inhibiting electron-hole recombination. The photocatalytic activity of the Ag-ZnO nanostructures was examined by observing the degradation of aqueous methylene blue (MB) dye under natural sunlight. The apparent rate constant determined for the photocatalytic degradation of MB by the Ag-ZnO nanostructures was 5.9668 x 10(-2) min(-1), which was faster than that of the untreated ZnO nanostructures (2.527 x 10(-2) mm(-1)). This plant-extract-mediated synthetic route could also be applied to the synthesis of other Ag-semiconductor oxide nanostructures. (C) 2015 Elsevier B.V. All rights reserved.</P>

Individual exome analysis in diagnosis and management of paediatric liver failure of indeterminate aetiology

Vilarinho, S.,Choi, M.,Jain, D.,Malhotra, A.,Kulkarni, S.,Pashankar, D.,Phatak, U.,Patel, M.,Bale, A.,Mane, S.,Lifton, R.P.,Mistry, P.K. Elsevier Science Publishers 2014 Journal of hepatology Vol.61 No.5

Background & Aims: In children with liver failure, as many as half remain of indeterminate aetiology. This hinders timely consideration of optimal treatment options. We posit that a significant subset of these children harbour known inherited metabolic liver diseases with atypical presentation or novel inborn errors of metabolism. We investigated the utility of whole-exome sequencing in three children with advanced liver disease of indeterminate aetiology. Methods: Patient 1 was a 10year-old female diagnosed with Wilson disease but no detectable ATP7B mutations, and decompensated liver cirrhosis who underwent liver transplant and subsequently developed onset of neurodegenerative disease. Patient 2 was a full-term 2day-old male with fatal acute liver failure of indeterminate aetiology. Patient 3 was an 8year-old female with progressive syndromic cholestasis of unknown aetiology since age 3months. Results: Unbiased whole-exome sequencing of germline DNA revealed homozygous mutations in MPV17 and SERAC1 as the disease causing genes in patient 1 and 2, respectively. This is the first demonstration of SERAC1 loss-of-function associated fatal acute liver failure. Patient 1 expands the phenotypic spectrum of the MPV17-related hepatocerebral mitochondrial DNA depletion syndrome. Patient 3 was found to have syndromic cholestasis due to bi-allelic NOTCH2 mutations. Conclusions: Our findings validate the application of whole-exome sequencing in the diagnosis and management of children with advanced liver disease of indeterminate aetiology, with the potential to enhance optimal selection of treatment options and adequate counselling of families. Moreover, whole-exome sequencing revealed a hitherto unrecognized phenotypic spectrum of inherited metabolic liver diseases.

Confinement of Ag₃PO₄ nanoparticles supported by surface plasmon resonance of Ag in glass: Efficient nanoscale photocatalyst for solar H₂ production from waste H₂S

Patil, S.S.,Patil, D.R.,Apte, S.K.,Kulkarni, M.V.,Ambekar, J.D.,Park, C.J.,Gosavi, S.W.,Kolekar, S.S.,Kale, B.B. Elsevier 2016 Applied Catalysis B Vol.190 No.-

<P>Ag3PO4 is a good photocatalyst but ubiquitously known for its photocorrosion problem during photocatalytic reaction. Therefore, stabilization of Ag3PO4 with retaining its fundamental properties has immense importance. With this motivation, we designed Ag3PO4 glass nanocomposite to resolve the problem of photocorrosion. Moreover, the effect of size quantization on photocatalytic activity has also been demonstrated by growing the cubic Ag3PO4 nanoparticles with size in the range of 3-9 nm in glass matrix via melt and quenching method. The band gap of Ag3PO4 has been tuned (2.56-2.25 eV) in glass matrix with respect to size. Considering the size tunable band gap of Ag3PO4 glass nanocomposite within visible region, it is demonstrated as a photocatalyst for hydrogen (H-2) production from copious hazardous waste H2S. The utmost H-2 production i.e. 3920.4 mu mol h(-1) g(-1) is obtained using 1 gm of Ag3PO4 glass nanocomposite powder. The apparent quantum yield for H-2 production is calculated to be 5.51% for Ag3PO4 glass nanocomposite. Interestingly, presence of plasmonic Ag was also observed in Ag3PO4 glass nanocomposite which contributes for H-2 production through enhanced light absorption, efficient charge separation and improved stability. Recycling study of sample reveals stable H-2 production efficiency and good stability of the photocatalyst. Surprisingly, catalyst can be reused many times and recovery of catalyst is possible just rinsing with distilled water. All these results demonstrate directly the feasibility of designing a new generation photocatalysts. (C) 2016 Published by Elsevier B.V.</P>

Experimental and Kinetic Studies of Esterification of Glycerol Using Combustion Synthesized SO₄^2-/CeO₂-Al₂O₃

Veluturla, Sravanthi,Narula, Archna,Rao, D. Subba,Indraja., S,Kulkarni, Rajeswari. M. The Korean Institute of Chemical Engineers 2018 Korean Chemical Engineering Research(HWAHAK KONGHA Vol.56 No.4

An increase in the global production of biodiesel has resulted in the newfound significance of its byproduct, glycerol. The synthesis of acetins is an economical avenue to enhance the value of glycerol derived from biodiesel. WE developed an eco-friendly process for the synthesis of fuel additives from glycerol using a mixed oxide $SO{_4}^{2-}/CeO_2-Al_2O_3$ as catalyst. The $CeO_2-Al_2O_3$ mixed oxide was synthesized by the combustion method and then sulfated. The characterization of the catalyst was by means of XRD, BET, FTIR, and SEM. The influence of temperature, mole ratio and catalyst loading on yield and selectivity of the acetins was studied for the esterification of glycerol. The reaction rate constants ($k_1$, $k_2$ and $k_3$) were estimated using optimization method in MAT lab, and the activation energies ($E_1$, $E_2$ and $E_3$) were determined by the Arrhenius equation. Furthermore, a kinetic model was developed.

Anisotropy and deformation heterogeneity in additive manufactured carbon-reinforced PEEK

Vipin Gupta,N. I. Thiruselvam,D. M. Kulkarni,V. V. Chaudhari,S. Suraj 대한기계학회 2023 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.37 No.6

Carbon-reinforced polyether ether ketone (C-PEEK) is one of the highperformance thermoplastic polymers used in engineering applications. To manufacture C-PEEK parts, a material extrusion process called fused deposition modeling (FDM) is more preferred than other 3D printing technologies such as material jetting, sheet lamination, VAT photopolymerization, binder jetting, directed energy deposition (DED) and powder bed fusion (PBF) due to its low cost and high efficiency. In FDM, the angle between printing and loading directions, called raster angle, is a known cause of material anisotropy. However, less attention has been paid to bring out the effect of raster angle on local state of strain. We fill this gap using digital image correlation (DIC) and scanning electron microscopy (SEM). Standard specimens made using three different raster angles, namely, 0°, 45°, and 90°, were tested upto failure by fracture. 0° raster angle offers the highest strength, whereas 90° raster angle yields the least strength. All specimens fail by brittle fracture. Strain localization that evolves near interfaces between two beads or layers play the most vital role in the failure mechanism.

Post-heating effects on the physical and electrochemical capacitive properties of reduced graphene oxide paper

Tamboli, S.,Kim, B.,Choi, G.,Lee, H.,Lee, D.,Patil, U. M.,Lim, J.,Kulkarni, S. B.,ChanJun, S.,Cho, H. Royal Society of Chemistry 2014 Journal of Materials Chemistry A Vol.2 No.14

We report combined electrochemical double-layer capacitance (EDLC) and pseudocapacitance in reduced graphene oxide (rGO) thick film like paper due to annealing temperature variations. The influence of annealing temperature (from room temperature (RT) to 1000 degrees C) on the structural, morphological, electrical, and electrochemical properties of rGO paper was evaluated. Upon increasing the annealing temperature, shifting of the dominant (002) X-ray diffraction (XRD) peak to a higher degree, volume expansion, and red-shifting of the G band in Raman spectra were observed. High-resolution transmission electron microscopy (HRTEM) images showed a reduction in the interlayer distance in rGO sheets from 0.369 to 0.349 nm as the annealing temperature increased from RT to 1000 degrees C; these results were congruent with the XRD results. According to X-ray photoelectron spectroscopy (XPS), the presence of hydroxyl, carboxyl, and other oxygen-containing groups decreased in samples annealed at higher temperatures. The attached functional groups, the electrical conductivity, and the supercapacitance of rGO papers were found to be mutually interrelated and could be tuned by varying the annealing temperature. The rGO paper annealed at 200 degrees C in a 1 M H2SO4 electrolyte at a scan rate of 50 mV s(-1) exhibited a maximum specific capacitance of 198 F g(-1).

Cannabinoids Induce Pancreatic -Cell Death by Directly Inhibiting Insulin Receptor Activation

Kim, W.,Lao, Q.,Shin, Y.-K.,Carlson, O. D.,Lee, E. K.,Gorospe, M.,Kulkarni, R. N.,Egan, J. M. American Association for the Advancement of Scienc 2012 Science signaling Vol.5 No.216

<P>Cannabinoid 1 (CB1) receptors have been previously detected in pancreatic β cells, where they attenuate insulin action. We now report that CB1 receptors form a heteromeric complex with insulin receptors and the heterotrimeric guanosine triphosphate-binding protein α subunit Gα(i). Gα(i) inhibited the kinase activity of the insulin receptor in β cells by directly binding to the activation loop in the tyrosine kinase domain of the receptor. Consequently, phosphorylation of proapoptotic protein Bad was reduced and its apoptotic activity was stimulated, leading to β-cell death. Pharmacological blockade or genetic deficiency of CB1 receptors enhanced insulin receptor signaling after injury, leading to reduced blood glucose concentrations and activation of Bad, which increased β-cell survival. These findings provide direct evidence of physical and functional interactions between CB1 and insulin receptors and suggest a mechanism whereby peripherally acting CB1 receptor antagonists improve insulin action in insulin-sensitive tissues independent of the other metabolic effects of CB1 receptors.</P>