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1	Φαρμακοδυναμική μελέτη συνθετικού αντικαρκινικού πεπτιδίου και βελτίωση της in vivo σταθερότητας με σύνδεση με πολυαιθυλενογλυκόλη Μπαμπούρη, Ιωάννα 06 February 2014 (has links) Η συσχέτιση της πρωτεΐνης PSP94 με τον καρκίνο του προστάτη είναι γνωστή, καθώς μειωμένα επίπεδα της PSP94 σχετίζονται με τα προχωρημένα, μεταστατικά στάδια καρκίνου του προστάτη, και υποτίθεται ότι η πλήρης έκφρασή της συμβάλλει στην αναχαίτιση της καρκινικής ανάπτυξης. Το PCK3145, ένα συνθετικό δεκαπενταμερές πεπτίδιο, του οποίου η αλληλουχία αμινοξέων είναι ταυτόσημο με την αλληλουχία των αμινοξέων 31 έως 45 της PSP94, επιλέχτηκε μεταξύ 12 διαφορετικών πεπτιδίων που προέκυψαν από την PSP94 καθώς εδείχθη οτι ανακεφαλαιώνει in vitro και in vivo τις λειτουργίες και ιδιότητες της PSP94, και άρα είναι ένα μόριο που μπορεί να χρησιμοποιηθεί στην καταστολή της ανάπτυξης του καρκίνου του προστάτη. Ωστόσο, φαρμακοκινητικές μελέτες σε ζώα και ασθενείς με καρκίνο του προστάτη, κατέδειξαν ταχεία κάθαρση και μικρό χρόνο ημιζωής. Προκειμένου να ενισχυθεί το φαρμακοκινητικό προφίλ του πεπτιδίου PCK3145 και ως εκ τούτου να βελτιωθεί η φαρμακοδυναμική του, υπέστη χημική τροποποίηση με προσθήκη πολυαιθυλενικής γλυκόλης (PEG). Η πειραματική εργασία παρουσιάζει τα αποτελέσματα μιας συστηματικής μελέτης σχετικά με την επίδραση της πεγκυλίωσης στο PCK3145 συγκρίνοντας την πρωτεολυτική σταθερότητα και βιολογική δράση δύο πεγκυλιωμένων συζευγμάτων του με την καθαρή μορφή του. Για την ποσοτικοποίηση και για τα πειράματα σταθερότητας χρησιμοποιήθηκε ένα σύστημα υγρής χρωματογραφίας υψηλής απόδοσης HPLC αποτελούμενο από μια αντλία Ultimate (Dionex). Ο χρωματογραφικός διαχωρισμός επιτεύχθηκε με μια στήλη ανάστροφης φάσης C18. Επετεύχθη για πρώτη φορά η ανάπτυξη αναλυτικής μεθοδολογίας HPLC για τον προσδιορισμό των πεγκυλιωμένων αναλόγων με υψηλού βαθμού γραμμικότητα, ειδικότητα, επαναληψιμότητα και αναπαραγωγιμότητα. Η πρωτεολυτική σταθερότητα των συζευγμάτων PEG σε ανθρώπινο πλάσμα προσδιορίστηκε με χρήση υγρής χρωματογραφίας HPLC και αποκαλύφθηκε μείωση του ποσοστού αποδόμησης και ενίσχυσξ της σταθερότητας του πεπτιδικών μορίων σε ανθρώπινο πλάσμα. H μελέτη επιβίωσης της κυτταρικής σειράς καρκίνου του προστάτη PC3 μετά την προσθήκη των πεπτιδικών μορίων υπό μελέτη υπολογίστηκε με τις μεθόδους ΜΤΤ και Trypan blue. 50% αναστολή της κυτταρικής αύξησης/μεταβολισμού επετεύχθη με τις συγκεντρώσεις των 10μg/ml και για τα τρία πεπτίδια. Ωστόσο, τα πεγκυλιωμένα ανάλογα επέφεραν ισχυρότερη ανασταλτική επίδραση στην κυτταρική αύξηση σε μικρότερες δόσεις. Παρόμοια ενθαρρυντικά αποτελέσματα υπήρξαν και για την δράση των μορίων στη καρκινική σειρά του μαστού MCF-7. Τα αποτελέσματα της μελέτης συνοψίζονται στην ικανότητα της πεγκυλίωσης να βελτιώνει τη σταθερότητα του PCK3145 και έτσι να ενισχύει τη βιολογική του δράση. Μελλοντικά πειράματα θα αποσαφηνίσουν περισσότερο τόσο την δράση των μορίων σε καρκινικές σειρές πέραν του προστάτη αλλά και την φαρμακοκινητική συμπεριφορά των πεπτιδικών αναλόγων μέσω πειραμάτων in vivo της βιοκατανομής και μεταβολισμού τους. / PSP94, protein is known to have specific implications with prostate cancer where a down-regulation of PSP94 levels is associated with advanced metastatic prostate cancer and it is supposed that the full expression contributes to the inhibition of tumor growth. PCK3145 is a synthetic 15-mer peptide that matches the natural sequence of amino acids 31 to 45 of PSP94 and was selected from 12 other peptides derived from PSP94 as it exhibited the best in vitro and animal in vivo properties similar to PSP94. Thus, it is a molecule hat can be used to suppress the growth of prostate cancer.However pharmacokinetics studies in animals and in patients with prostate cancer showed rapid clearance and a short half-life. In order to alter the pharmacokinetic profile of the peptide, and thereby to improve its pharmacodynamic potential PCK3145 was chemically modified with polyethylene glycol (PEG).This experimental work presents the results of a systematic study on the influence of the PEGylation of PCK3145 peptides on the proteolytic stability and biological activity of these conjugates compared to the wild-type peptide. For the quantification and stability assays an HPLC system was used consisted of an Ultimate 3000 Pump (Dionex). Chromatographic separation was achieved on RP, C18 column. An HPLC method development for the determination of the PEG-peptide conjugates was assessed for the first time. A high degree of linearity, specificity as well as repeatability and reproducibility were also achieved. The proteolytic stability of the PEG-peptide conjugates in human plasma was assessed by HPLC chromatography, which revealed a significant decrease in the degradation. Proliferation of PC3 cancer cell line was measured using the MTT and Trypan blue test. A 50% inhibition of the cell metabolism/growth was achieved by the concentrations of 10 μg/ml of the three peptides. However, at lower concentrations stronger growth inhibitory effect was observed for the PEG-peptides. Similar encouraging results have also seen for the action of molecules in cancer cell lines MCF-7.The results of this study emphasize the ability of PEGylation to improve the stability of PCK3145 and thus to enhance the biological activity. Future experiments willi clarify more the action of molecules in cancer cell lines beyond the prostate and the pharmacokinetic behavour of peptide analogs through in vivo experiments of biodistribution and metabolism. 615.761 Polyethylene glycol (PEG) Peptide stability PCK3145
2	Cadherin-Mediated Cell-Cell Interactions Regulates Phenotype And Morphology of Nucleus Pulposus Cells Of The Intervertebral Disc Hwang, Priscilla Y. January 2015 (has links) <p>Juvenile nucleus pulposus (NP) cells of the intervertebral disc (IVD) are large, vacuolated cells that form cell clusters with numerous cell-cell interactions. With maturation and aging, NP cells lose their ability to form these cell clusters, with associated changes in NP cell phenotype, morphology and proteoglycan synthesis that may contribute to IVD degeneration. Studies demonstrate healthy, juvenile NP cells exhibit potential for preservation of multi-cell clusters and NP cell phenotype when cultured upon soft, laminin-containing substrates; however, the mechanisms that regulate metabolism and phenotype of these NP cells are not understood. N-cadherin is a cell adhesion molecule that is present in juvenile NP cells, but disappears with age. The goal of this dissertation was to reveal the role of N-cadherin for NP cells in multi-cell clusters that contribute to the maintenance of the juvenile NP cell morphology and phenotype in vitro, and to evaluate the potential for laminin- functionalized poly(ethylene glycol) (PEG-LM) hydrogels to promote human NP cells towards a juvenile NP cell phenotype. </p><p>In this dissertation, juvenile porcine IVD cells were promoted to form cell clusters in vitro, and analyzed for preservation of the juvenile NP phenotype on soft, laminin-rich hydrogels. In the first part of this dissertation, preservation of the porcine juvenile NP cell phenotype and presence of N-cadherin was analyzed by culturing porcine NP cells on soft, laminin-rich or PEG-LM hydrogels. Secondly, cadherin-blocking experiments were performed to prevent cluster formation in order to study the importance of cluster formation in NP cell signaling. Finally, human IVD cells were cultured on PEG-LM hydrogels to investigate the potential to revert degenerate, human NP cells toward a juvenile NP cell phenotype and morphology. </p><p>Findings reveal soft (<500 Pa), laminin-rich substrates promote NP cell clustering, a key feature of the juvenile NP cell that is associated with N-cadherin positive expression. Additionally, N-cadherin-mediated cell-clustering regulates NP cell matrix production and gene expression of NP-specific and NP-matrix related markers. Inhibition of N-cadherin-mediated contacts resulted in decreased expression of juvenile NP cell features. Finally, juvenile human NP cells are also able to form N-cadherin positive cell clusters on soft, PEG-LM hydrogels with higher expression of juvenile NP cell features compared to culturing on stiff PEG-LM hydrogels. Some degenerate, human NP cells are also able to form N-cadherin positive cell clusters with some features of the juvenile NP cell. </p><p>The studies presented in this dissertation support the proposed hypothesis and establish the importance of soft, laminin-rich substrates in promoting NP cell clustering behaviors with associated features of a juvenile cell phenotype and morphology. Additionally, these studies establish a regulatory role for N-cadherin in juvenile NP cells and suggest that preservation of N-cadherin-mediated cell-cell contacts is important for preserving the juvenile NP cell phenotype and morphology. Furthermore, findings from this dissertation reveal the ability to promote degenerate, mature human NP cells towards a juvenile NP cell phenotype, demonstrating the potential to use PEG-LM hydrogels as a means for autologous cell delivery for the restoration of healthy IVD.</p> / Dissertation Biomedical engineering Biomechanics intervertebral disc laminin microenvironmental cues N-cadherin nucleus pulposus polyethylene glycol (PEG)
3	Surfactants based on natural products - enzymatic synthesis and functional characterization Viklund, Fredrik January 2003 (has links) Surfactants are molecules that contain a water-soluble and afat-soluble part. They have important functions in productssuch as detergents, cosmetics, pharmaceuticals and foods aswell as in many industrial processes. Surfactants are used onvery large scale, which makes it important to decrease theirimpact on the environment. This can be done by starting withnatural materials, by improving the synthetic methods and byreducing the use of limited resources such as energy andorganic solvents. This thesis focuses on lipase-catalyzed synthesis ofsurfactants based on natural products. It also includesfunctional studies of the produced surfactants; as antioxidantsin oils, or as surfactants to solubilize pharmaceuticals. Unsaturated fatty acid esters of ascorbic acid weresynthesized with catalysis by Candida antarctica lipase B int-amyl alcohol and in ionic liquids. High yields ofascorbyl oleate were obtained in an ionic liquid that wasdesigned to improve the solubility of the fatty acid, when thereaction was performed under vacuum. Ascorbyl oleate wasamorphous and was a better antioxidant than ascorbyl palmitatein rapeseed oil. Polyethylene glycol (PEG) stearate, PEG 12-hydroxystearateand a series of PEG 12-acyloxy-stearates were synthesized in avacuum-driven, solvent-free system usingC. antarcticalipase B as catalyst. Critical micelleconcentration and solubilization capacity were determined forthe PEG 12-acyloxy-stearates. Their effects on living cellswere evaluated in studies of hemolysis and transepithelialelectrical resistance. Several PEG1500 12-acyloxy-stearateswere excellent solubilizers for pharmaceutical use and hadnegligible negative effects on living cells even at highconcentrations. Enzymatic and chemo-enzymatic methods offer uniquepossibilities to synthesize surfactants of high purity. Pureand well-defined surfactants enable new applications and areimportant for the understanding of surfactantstructure-function relationships. Enzymatic synthesis Surfactants Antioxidants Ascorbyl oleate Polyethylene glycol (PEG) esters Hemolysis Transepithelial electrical resistance Ionic liquids Candida antarctica lipase B
4	Surfactants based on natural products - enzymatic synthesis and functional characterization Viklund, Fredrik January 2003 (has links) <p>Surfactants are molecules that contain a water-soluble and afat-soluble part. They have important functions in productssuch as detergents, cosmetics, pharmaceuticals and foods aswell as in many industrial processes. Surfactants are used onvery large scale, which makes it important to decrease theirimpact on the environment. This can be done by starting withnatural materials, by improving the synthetic methods and byreducing the use of limited resources such as energy andorganic solvents.</p><p>This thesis focuses on lipase-catalyzed synthesis ofsurfactants based on natural products. It also includesfunctional studies of the produced surfactants; as antioxidantsin oils, or as surfactants to solubilize pharmaceuticals.</p><p>Unsaturated fatty acid esters of ascorbic acid weresynthesized with catalysis by Candida antarctica lipase B in<i>t</i>-amyl alcohol and in ionic liquids. High yields ofascorbyl oleate were obtained in an ionic liquid that wasdesigned to improve the solubility of the fatty acid, when thereaction was performed under vacuum. Ascorbyl oleate wasamorphous and was a better antioxidant than ascorbyl palmitatein rapeseed oil.</p><p>Polyethylene glycol (PEG) stearate, PEG 12-hydroxystearateand a series of PEG 12-acyloxy-stearates were synthesized in avacuum-driven, solvent-free system using<i>C. antarctica</i>lipase B as catalyst. Critical micelleconcentration and solubilization capacity were determined forthe PEG 12-acyloxy-stearates. Their effects on living cellswere evaluated in studies of hemolysis and transepithelialelectrical resistance. Several PEG1500 12-acyloxy-stearateswere excellent solubilizers for pharmaceutical use and hadnegligible negative effects on living cells even at highconcentrations.</p><p>Enzymatic and chemo-enzymatic methods offer uniquepossibilities to synthesize surfactants of high purity. Pureand well-defined surfactants enable new applications and areimportant for the understanding of surfactantstructure-function relationships.</p> Enzymatic synthesis Surfactants Antioxidants Ascorbyl oleate Polyethylene glycol (PEG) esters Hemolysis Transepithelial electrical resistance Ionic liquids Candida antarctica lipase B
5	Lamination of Organic Solar Modules Kalldin, Sofie January 2014 (has links) As the Worlds energy demand is increasing we need more of our energy to be generated from resources that affect the climate as little as possible. Solar power could be the solution if there were solar panels with a less energy demanding production than the established silicon based solar modules. Printable organic solar cells will enable a cheap production process, thus they are mainly made out of polymers in solution. However, to be able to decrease the total cost of the solar modules the commonly used indium tin oxide (ITO) for the transparent electrode needs to be replaced by a less expensive material. If the cheap, high conductive and transparent polymer poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate) (PEDOT:PSS) could replace ITO the cost of organic solar modules would significantly decrease. For PEDOT:PSS to be able to replace ITO there are requirements that have to be met. The transparent electrode needs to be apart from transparent, highly conductive, have a low contact resistance to the other materials in the organic solar cell and be printable. In this study it has been shown that the PEDOT:PSS film with Zonyl and Diethylene Glycol (DEG) as an secondary dopant, is capable of laminating to thin films made out of PEDOT:PSS, metal or a polymer fullerene blend. The contact resistances between two PEDOT:PSS films and PEDOT:PSS film and a metal film proved to be low. When laminating to a metal film an interlayer of Silver Nano Wires (AgNW) was needed to achieve a low contact resistance. Organic solar modules Lamination PEDOT:PSS Ethylene Glycol (EG) Diethylene Glycol (DEG) Polyethylene Glycol (PEG) Roll to roll process (R2R)
6	Comparative analysis of granule properties in continuous granulators Sekyi, Nana, Kelly, Adrian L., Rahmanian, Nejat 14 April 2023 (has links) Yes / Several contributions in answering granulation challenges including the use of computer simulation and well thought out experimental analyses are being researched. Using a twin screw granulator (TSG) by design of experiments (DoE), comparisons on 1) equipment similarities i.e., continuous and 2) shear forces, are made to previous literature on continuous equipment and a Cyclomix. This study proposes that equipment specific DoE, better explains the contribution of parameters than investigating an identified parameter from the experimental findings from a specific equipment. Granule strength and structure are presented together with the contribution of process parameters, speed, temperature, and binder content. Seeded structures are present in all but the Extrudomix. Longer residence times within the Cyclomix facilitates seeded structures. Granule crushing strengths are higher in TSG than all other continuous equipment. Optimum condition for the formation of stronger granules with least variation is around 65.4 °C. / The authors would like to acknowledge the support from the CCIP grant (Collaboration, Capacity and IP Development) fund from the University of Bradford for ordering cunsumables and equipment. Hot melt granulation Twin screw melt granulation Wet granulation Polyethylene glycol (PEG) 4000 Calcium carbonate (Durcal 65) Kneading elements (KB)
7	Surface Chemical Studies On Oxide And Carbide Suspensions In The Presence Of Polymeric Additives Saravanan, L 06 1900 (has links) (PDF) No description available. Ceramics - Surface Chemistry Polymers - Additives Polymeric Additives Polymer Adsorption Polymers - Adsorption Polymeric Flocculation Polyethylene Glycol (PEG) Ammonium Polymethacrylate Alumina Zlrconia Silicon Carbide Chitosan Chemical Engineering
8	The effect of PEO homopolymers on the behaviours and structural evolution of Pluronic F127 Smart Hydrogels for Controlled Drug Delivery Systems Shriky, Banah, Mahmoudi, N., Kelly, Adrian L., Isreb, Mohammad, Gough, Timothy D. 06 April 2022 (has links) Yes / Understanding the structure-property relationships of drug delivery system (DDS) components is critical for their development and the prediction of bodily performance. This study investigates the effects of introducing polyethylene oxide (PEO) homopolymers, over a wide range of molecular weights, into Pluronic injectable smart hydrogel formulations. These smart DDSs promise to enhance patient compliance, reduce adverse effects and dosing frequency. Pharmaceutically, Pluronic systems are attractive due to their unique sol-gel phase transition in the body, biocompatibility, safety and ease of injectability as solutions before transforming into gel matrices at body temperature. This paper presents a systematic and comprehensive evaluation of gelation and the interplay of microscopic and macroscopic properties under both equilibrium and non-equilibrium conditions in controlled environments, as measured by rheology in conjunction with time-resolved Small Angle Neutron Scattering (SANS). The non-equilibrium conditions investigated in this work offer a better understanding of the two polymeric systems’ complex interactions affecting the matrix thermo-rheological behaviour and structure and therefore the future release of an active pharmaceutical ingredient from the injectable DDS. Thermosensitive gel Thermal properties Rheological properties Small Angle Neutron Scattering (SANS) Drug release Colloidal crystals Drug delivery systems (DDS) Injectables Polyethylene glycol (PEG) Polyethylene oxide (PEO) Smart hydrogels
9	Estudo do processamento de polietileno de ultra-alta massa molar(Peuamm)e polietileno glico (PEG) por moagem de alta energia Gabriel, Melina Correa 29 March 2010 (has links) Made available in DSpace on 2017-07-21T20:42:32Z (GMT). No. of bitstreams: 1 Melina Correa Gabriel.pdf: 5915390 bytes, checksum: bae67fca28fd7999823fa6ec6ac98844 (MD5) Previous issue date: 2010-03-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The intention of this exploratory research is to study the modifications provided by high-energy mechanical milling in ultra-high molecular weight polyethylene (UHMWPE) and mixtures of this polymer with polyethylene glycol (PEG). These modifications can be of interest for future processing of UHMWPE. The mechanical milling was performed in an attritor mill, a type of mill that can be used in laboratory as well as in industry. The millings of UHMWPE were performed in different rotation speeds. For mixtures of UHMWPE and PEG, the amounts of PEG were also different. The samples were characterized by scanning electron microscopy (SEM), atomic force microscopy (AFM), differential scanning calorimetry (DSC) and X-ray diffraction (XRD). The mechanical milling modified the UHMWPE particles morphology: with milling, the almost rounded shape became flat-like shape. This caused the reduction of apparent density of polymer after milling. The mechanical milling also provided structural changes. With the increasing of the rotation speed,there was the increasing of the monoclinic phase and the decreasing of the orthorhombic, up to 500 rpm. For 600 rpm, the amount of monoclinic phase decreased. In this rotation, the deformation rate probably increased the process temperature, allowing the monoclinic phase to return to its initial structural orthorhombic form. In mixtures of UHMWPE and PEG, after mechanical milling, the particles of PEG were probably reduced and better dispersed in the UHMWPE matrix. Changes in thermal characteristics of polymers also could be noted. The kinetics of UHMWPE crystal growth changed, as well as the behavior of PEG crystallization. Feasibly, dispersed particles of PEG acted as physical barriers against the crystalline phase growth of UHMWPE and the crystallization temperature of PEG decreased, when the UHMWPE and PEG mixtures were milled. / Este trabalho exploratório teve por objetivo estudar as modificações promovidas por moagem de alta energia no de polietileno de ultra-alta massa molar (PEUAMM) e sua mistura com polietileno glicol (PEG), que podem ser de interesse para auxiliar um posterior processamento do PEUAMM. As moagens foram realizadas em um moinho do tipo attritor, um tipo de moinho que pode ser usado tanto em laboratório quanto em escala industrial. Foram variadas as velocidades de rotação na moagem do PEUAMM, além das concentrações de PEG, quando feita a mistura. As amostras foram caracterizadas por microscopia eletrônica de varredura (MEV), microscopia de força atômica (MFA), calorimetria exploratória diferencial (DSC) e difração de raios X. A moagem de alta energia do material modificou a forma das partículas de PEUAMM, passando de arredondadas a flakes, com a evolução do processo de moagem, fazendo com que a densidade aparente do polímero diminuísse muito comparado ao polímero não moído. A moagem também proporcionou mudança estrutural, permitindo a formação de fase monoclínica em detrimento da ortorrômbica. A medida que se aumentou a rotação do moinho até 500 rpm, houve um crescimento da fase monoclínica. Apenas para 600 rpm, a quantidade dessa fase sofreu decréscimo, devido possivelmente ao aumento da frequência de choques e da temperatura de processamento, fazendo com que a estrutura monoclínica retornasse à estrutura ortorrômbica original. Na mistura de PEUAMM com PEG, a moagem provavelmente permitiu redução das partículas e a melhor dispersão de PEG na matriz de PEUAMM. Também se observaram mudanças nas características térmicas dos polímeros na mistura após moagem. Ocorreu mudança na cinética de crescimento dos cristais de PEUAMM e mudança no comportamento de cristalização do PEG, comportamento este que não ocorreu para o PEUAMM moído ou para a mistura de PEUAMM com PEG antes da moagem. Possivelmente, as partículas dispersas de PEG atuaram como barreiras ao crescimento da fase cristalina do PEUAMM e houve diminuição da temperatura de cristalização do PEG, na mistura com PEUAMM após moagem. Moagem de alta energia Moinho attritor Deconvolução Polietileno glicol (PEG) High-energy mechanical milling Attritor mill Deconvolution Polyethylene glycol (PEG)
10	Diacylglycerol, novel protein kinase C isozymes [eta] and [theta], and other diacylglycerol activated proteins promote neuroprotective plasmalemmal sealing in B104 neurons in vitro and rat sciatic nerve axons in vivo Zuzek, Aleksej 25 February 2013 (has links) To survive, neurons and other eukaryotic cells must rapidly repair (seal) plasmalemmal damage. Such repair occurs by an accumulation of intracellular vesicles at or near the plasmalemmal disruption. Diacylglycerol (DAG)-dependent and cAMP-dependent proteins are involved in many vesicle trafficking pathways. Although recent studies have implicated the signaling molecule cAMP in sealing, no study has investigated how DAG and DAG-dependent proteins affect sealing and, whether pharmacological inhibition of such proteins could promote immediate repair of damaged mammalian axons. To this end, I investigated the role of DAG, protein kinase C (PKC) and other DAG-activated proteins in plasmalemmal sealing in B104 neurons in vitro and rat sciatic nerves in vivo. Using dye exclusion to assess Ca2+-dependent vesicle-mediated sealing of transected neurites of individually identifiable rat hippocampal B104 cells, I now report that, compared to non-treated controls, sealing probabilities and rates are increased by DAG and cAMP analogs that activate PKC and Munc13-1, and protein kinase A (PKA). Sealing is decreased by inhibiting DAG-activated novel protein kinase C isozymes η (nPKCη) and θ (nPKCθ) and, Munc13-1, the PKC effector myristoylated alanine rich PKC substrate (MARCKS) or phospholipase C (PLC). DAG-increased sealing is prevented by inhibiting MARCKS or PKA. Sealing probability is further decreased by simultaneously inhibiting nPKCη, nPKCθ and PKA. Extracellular Ca2+, DAG or cAMP analogs do not affect this decrease in sealing. I also report that applying inhibitors of nPKC and PKA to rat sciatic axons crush-severed in vivo under physiological calcium, do not promote immediate repair by polyethylene glycol (PEG), as assessed by compound action potential conduction and dye diffusion through crush sites. These and other data suggest that DAG increases sealing through MARCKS and that nPKCη, nPKCθ and PKA are all required to seal plasmalemmal damage in B104 neurons, and likely all eukaryotic cells. / text Protein kinase C (PKC) Diacylglycerol (DAG) Protein kinase A (PKA) Cyclic AMP (cAMP) Munc13 Polyethylene glycol (PEG) Plasmalemma Plasmalemma disruptions Plasmalemmal sealing Survival Peripheral nerve injury Stroke

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