Current Search: 20th-century America (x) » Department of Chemistry and Biochemistry (x) » Marine pharmacology (x)
View All Items
- Title
- Biosynthetic Studies of the Bryostatins, Anticancer Agents from the Marine Bryozoan Bugu/a neritina.
- Creator
- Lawry, Joseph, Kerr, Russell G., Florida Atlantic University, Charles E. Schmidt College of Science, Department of Chemistry and Biochemistry
- Abstract/Description
-
The bryostatins are a family of macrolide lactones isolated from the marine bryozoan Bugu/a neritina. Since its detection in 1968, bryostatin 1 has demonstrated remarkable anticancer, immunopotentiating, biomodulatory and radioprotective effects which result mainly from its ability to activate protein kinase C, a family of isozymes involved in cellular signal transduction. It is currently being tested in several phase I and phase II clinical trials as a potential anticancer drug for leukemia,...
Show moreThe bryostatins are a family of macrolide lactones isolated from the marine bryozoan Bugu/a neritina. Since its detection in 1968, bryostatin 1 has demonstrated remarkable anticancer, immunopotentiating, biomodulatory and radioprotective effects which result mainly from its ability to activate protein kinase C, a family of isozymes involved in cellular signal transduction. It is currently being tested in several phase I and phase II clinical trials as a potential anticancer drug for leukemia, melanoma and nephrotoma. A series of experiments was undertaken to elucidate the biosynthetic origins of bryostatin, using a fortified crude cell-free enzyme preparation and radiolabelled precursors. A regional characterization of Bugula neritina from Sicily, Italy and Daytona Beach, Florida is also described.
Show less - Date Issued
- 1997
- PURL
- http://purl.flvc.org/fau/fd/FA00000787
- Subject Headings
- Macrolide antibiotics, Bryozoa, Marine pharmacology
- Format
- Document (PDF)
- Title
- Isolation of the fatty acid synthetase from the marine invertebrate Bugula neritina.
- Creator
- Koh, Francis H., Florida Atlantic University, Kerr, Russell G., Charles E. Schmidt College of Science, Department of Chemistry and Biochemistry
- Abstract/Description
-
The fatty acid synthetase (FAS) from the marine invertebrate Bugula neritina was isolated using cold ethanol precipitation followed by the sequence of G-100 and G-200 size exclusion columns. Native gel analysis indicates the isolation of the FAS and the elution volume from the G-100 column suggests the FAS to be ~282kd. One band with a molecular weight of 66 kDa appeared on the SDS gel of the G-200 sample (F17-30) that eluted at 52.5 mL. The G-200 sample that eluted at 19.2 mL (F1-6)...
Show moreThe fatty acid synthetase (FAS) from the marine invertebrate Bugula neritina was isolated using cold ethanol precipitation followed by the sequence of G-100 and G-200 size exclusion columns. Native gel analysis indicates the isolation of the FAS and the elution volume from the G-100 column suggests the FAS to be ~282kd. One band with a molecular weight of 66 kDa appeared on the SDS gel of the G-200 sample (F17-30) that eluted at 52.5 mL. The G-200 sample that eluted at 19.2 mL (F1-6) displayed two predominant bands on the SDS gel corresponding to molecular weights 66 kDa and 97 kDa. Both F1-6 and F17-30 showed FAS activity displaying de novo production of myristic and palmitic acids. From the sequence of purification starting from the cell-free extract (CFE) to the F17-30 sample, a 240 fold increase in specific activity was observed. The Type II FAS experiments showed no substantial evidence of activity, namely of the beta-Hydroxybutyryl acyl-dehydrase and the enoyl reductase enzymes.
Show less - Date Issued
- 1998
- PURL
- http://purl.flvc.org/fcla/dt/15546
- Subject Headings
- Fatty acids--Synthesis, Marine pharmacology, Bryozoa
- Format
- Document (PDF)
- Title
- Isolation, Analysis and Origin of Bioactive Diterpenes in Pseudopterogorgia acerosa.
- Creator
- Kate, Abhijeet S., Florida Atlantic University, Kerr, Russell G., Charles E. Schmidt College of Science, Department of Chemistry and Biochemistry
- Abstract/Description
-
Nature has served human kind m many ways, one of which is a source of medicines. Natural products from marine sources represent a relatively new area of research and have shown tremendous potential as a source of new chemical entities in drug discovery. Caribbean gorgomans corals of the genus Pseudopterogorgia have been shown to produce a variety of chemically interesting and biologically significant secondary metabolites. ln this dissertation, the Caribbean coral Pseudopterogorgia acerosa...
Show moreNature has served human kind m many ways, one of which is a source of medicines. Natural products from marine sources represent a relatively new area of research and have shown tremendous potential as a source of new chemical entities in drug discovery. Caribbean gorgomans corals of the genus Pseudopterogorgia have been shown to produce a variety of chemically interesting and biologically significant secondary metabolites. ln this dissertation, the Caribbean coral Pseudopterogorgia acerosa has been investigated for the presence of novel diterpenes and these compounds were found to belong to three different classes: pseudopteranoids, bis-pseudopteranoids and lipidyl pseudopteranes. Nine of these were new compounds. The structural elucidation of these compounds was performed using spectroscopic means such as l D and 20 NMR, and mass spectroscopy. There is growing evidence that secondary metabolites isolated from manne invertebrates may actually be produced by a bacterial symbiont. The research studies in our laboratory regarding the source of diterpenes in the selected gorgonian corals suggested a bacterial origin. The hypothesis that coral associated bacteria are the source of diterpenes in the coral P. acerosa, was evaluated using the series of experiments and evidence supported this biosynthetic origin. A study comparing the "gall" tissue and healthy coral tissue in terms of diterpene content and culturable bacterial communities showed that different groups of diterpenes were concentrated in different coral tissue types. It was also observed that the bacterial populations associated with the "gall" and healthy tissues were considerably different. Furthermore, observed specificity in antimicrobial activity of certain groups of compounds against bacteria isolated from the same coral suggested the ecological role of these compounds. This work with "gall" tissue supports the hypothesis that diseased coral tissue represents an excellent source of bioactive natural products for drug discovery. Additionaly, a simple LC-MS method was developed for the analysis of anticancer drug carmustine in plasma.
Show less - Date Issued
- 2008
- PURL
- http://purl.flvc.org/fau/fd/FA00000864
- Subject Headings
- Marine pharmacology, Coral reef ecology--Caribbean Area, Natural products--Synthesis
- Format
- Document (PDF)