Biomimetic Orientated Total Synthesis of Neovibsane Natural Products and Comparison of Synthetic Neovibsanes on Neurite Outgrowth Promotion in PC12 Cells

Annette Chen

Unknown Date

Neovibsanin A and B are natural products which induced neurite outgrowth in PC12 cells. They belong in the neovibsane class under the rare vibsane natural product family, whose structures are characterized by polycyclic, polyoxygenated cores. Based on a proposed biosynthesis, the synthetic strategy towards neovibsanin A and B involved synthesizing a key enone intermediate. Initial investigation using this intermediate lead to the total synthesis of 2-O-methylneovibsanin H. Crucial to this concise synthesis was an acid-catalyzed, one-pot, four-step cascade reaction. Modifying the reaction condition leads to a different five-step cascade pathway, resulting in the total synthesis of 4,5-bis-epi-neovibsanin A and B. The synthetic trials and tribulations encountered on the road to these final compounds are explored. It is envisaged that other related neovibsane natural products may arise based on this synthetic sequence. 4,5-Bis-epi-neovibsanin A and B, as well as several other structural analogues collected during the synthesis, were biologically assayed using NGF-stimulated PC12 cells. All compounds induced a significant proportion of neurons to extend neurite processes compared to control cultures. The structure-activity relationship studies indicated that the tricyclic core, as well as the 3,3-dimethylacroyl enol ester side chain, may be responsible for promoting a biological response.

neovibsanin a

neovibsanin b

2-O-methylneovibsanin h

biological activity

neurite outgrowth

natural product

total synthesis

Biomimetic Orientated Total Synthesis of Neovibsane Natural Products and Comparison of Synthetic Neovibsanes on Neurite Outgrowth Promotion in PC12 Cells

Annette Chen

Unknown Date

Neovibsanin A and B are natural products which induced neurite outgrowth in PC12 cells. They belong in the neovibsane class under the rare vibsane natural product family, whose structures are characterized by polycyclic, polyoxygenated cores. Based on a proposed biosynthesis, the synthetic strategy towards neovibsanin A and B involved synthesizing a key enone intermediate. Initial investigation using this intermediate lead to the total synthesis of 2-O-methylneovibsanin H. Crucial to this concise synthesis was an acid-catalyzed, one-pot, four-step cascade reaction. Modifying the reaction condition leads to a different five-step cascade pathway, resulting in the total synthesis of 4,5-bis-epi-neovibsanin A and B. The synthetic trials and tribulations encountered on the road to these final compounds are explored. It is envisaged that other related neovibsane natural products may arise based on this synthetic sequence. 4,5-Bis-epi-neovibsanin A and B, as well as several other structural analogues collected during the synthesis, were biologically assayed using NGF-stimulated PC12 cells. All compounds induced a significant proportion of neurons to extend neurite processes compared to control cultures. The structure-activity relationship studies indicated that the tricyclic core, as well as the 3,3-dimethylacroyl enol ester side chain, may be responsible for promoting a biological response.

neovibsanin a

neovibsanin b

2-O-methylneovibsanin h

biological activity

neurite outgrowth

natural product

total synthesis

Biomimetic Orientated Total Synthesis of Neovibsane Natural Products and Comparison of Synthetic Neovibsanes on Neurite Outgrowth Promotion in PC12 Cells

Annette Chen

Unknown Date

Neovibsanin A and B are natural products which induced neurite outgrowth in PC12 cells. They belong in the neovibsane class under the rare vibsane natural product family, whose structures are characterized by polycyclic, polyoxygenated cores. Based on a proposed biosynthesis, the synthetic strategy towards neovibsanin A and B involved synthesizing a key enone intermediate. Initial investigation using this intermediate lead to the total synthesis of 2-O-methylneovibsanin H. Crucial to this concise synthesis was an acid-catalyzed, one-pot, four-step cascade reaction. Modifying the reaction condition leads to a different five-step cascade pathway, resulting in the total synthesis of 4,5-bis-epi-neovibsanin A and B. The synthetic trials and tribulations encountered on the road to these final compounds are explored. It is envisaged that other related neovibsane natural products may arise based on this synthetic sequence. 4,5-Bis-epi-neovibsanin A and B, as well as several other structural analogues collected during the synthesis, were biologically assayed using NGF-stimulated PC12 cells. All compounds induced a significant proportion of neurons to extend neurite processes compared to control cultures. The structure-activity relationship studies indicated that the tricyclic core, as well as the 3,3-dimethylacroyl enol ester side chain, may be responsible for promoting a biological response.

neovibsanin a

neovibsanin b

2-O-methylneovibsanin h

biological activity

neurite outgrowth

natural product

total synthesis

Biomimetic Orientated Total Synthesis of Neovibsane Natural Products and Comparison of Synthetic Neovibsanes on Neurite Outgrowth Promotion in PC12 Cells

Annette Chen

Unknown Date

Neovibsanin A and B are natural products which induced neurite outgrowth in PC12 cells. They belong in the neovibsane class under the rare vibsane natural product family, whose structures are characterized by polycyclic, polyoxygenated cores. Based on a proposed biosynthesis, the synthetic strategy towards neovibsanin A and B involved synthesizing a key enone intermediate. Initial investigation using this intermediate lead to the total synthesis of 2-O-methylneovibsanin H. Crucial to this concise synthesis was an acid-catalyzed, one-pot, four-step cascade reaction. Modifying the reaction condition leads to a different five-step cascade pathway, resulting in the total synthesis of 4,5-bis-epi-neovibsanin A and B. The synthetic trials and tribulations encountered on the road to these final compounds are explored. It is envisaged that other related neovibsane natural products may arise based on this synthetic sequence. 4,5-Bis-epi-neovibsanin A and B, as well as several other structural analogues collected during the synthesis, were biologically assayed using NGF-stimulated PC12 cells. All compounds induced a significant proportion of neurons to extend neurite processes compared to control cultures. The structure-activity relationship studies indicated that the tricyclic core, as well as the 3,3-dimethylacroyl enol ester side chain, may be responsible for promoting a biological response.

neovibsanin a

neovibsanin b

2-O-methylneovibsanin h

biological activity

neurite outgrowth

natural product

total synthesis

Biomimetic Orientated Total Synthesis of Neovibsane Natural Products and Comparison of Synthetic Neovibsanes on Neurite Outgrowth Promotion in PC12 Cells

Annette Chen

Unknown Date

Neovibsanin A and B are natural products which induced neurite outgrowth in PC12 cells. They belong in the neovibsane class under the rare vibsane natural product family, whose structures are characterized by polycyclic, polyoxygenated cores. Based on a proposed biosynthesis, the synthetic strategy towards neovibsanin A and B involved synthesizing a key enone intermediate. Initial investigation using this intermediate lead to the total synthesis of 2-O-methylneovibsanin H. Crucial to this concise synthesis was an acid-catalyzed, one-pot, four-step cascade reaction. Modifying the reaction condition leads to a different five-step cascade pathway, resulting in the total synthesis of 4,5-bis-epi-neovibsanin A and B. The synthetic trials and tribulations encountered on the road to these final compounds are explored. It is envisaged that other related neovibsane natural products may arise based on this synthetic sequence. 4,5-Bis-epi-neovibsanin A and B, as well as several other structural analogues collected during the synthesis, were biologically assayed using NGF-stimulated PC12 cells. All compounds induced a significant proportion of neurons to extend neurite processes compared to control cultures. The structure-activity relationship studies indicated that the tricyclic core, as well as the 3,3-dimethylacroyl enol ester side chain, may be responsible for promoting a biological response.

neovibsanin a

neovibsanin b

2-O-methylneovibsanin h

biological activity

neurite outgrowth

natural product

total synthesis

Biomimetic Orientated Total Synthesis of Neovibsane Natural Products and Comparison of Synthetic Neovibsanes on Neurite Outgrowth Promotion in PC12 Cells

Annette Chen

Unknown Date

Neovibsanin A and B are natural products which induced neurite outgrowth in PC12 cells. They belong in the neovibsane class under the rare vibsane natural product family, whose structures are characterized by polycyclic, polyoxygenated cores. Based on a proposed biosynthesis, the synthetic strategy towards neovibsanin A and B involved synthesizing a key enone intermediate. Initial investigation using this intermediate lead to the total synthesis of 2-O-methylneovibsanin H. Crucial to this concise synthesis was an acid-catalyzed, one-pot, four-step cascade reaction. Modifying the reaction condition leads to a different five-step cascade pathway, resulting in the total synthesis of 4,5-bis-epi-neovibsanin A and B. The synthetic trials and tribulations encountered on the road to these final compounds are explored. It is envisaged that other related neovibsane natural products may arise based on this synthetic sequence. 4,5-Bis-epi-neovibsanin A and B, as well as several other structural analogues collected during the synthesis, were biologically assayed using NGF-stimulated PC12 cells. All compounds induced a significant proportion of neurons to extend neurite processes compared to control cultures. The structure-activity relationship studies indicated that the tricyclic core, as well as the 3,3-dimethylacroyl enol ester side chain, may be responsible for promoting a biological response.

neovibsanin a

neovibsanin b

2-O-methylneovibsanin h

biological activity

neurite outgrowth

natural product

total synthesis