Immunomodulatory Effect of Marine Cembrane-type Diterpenoids on Dendritic Cells

Overview

Journal Mar Drugs

Publisher MDPI

Specialties Biology
Pharmacology

Date 2013 Apr 24

PMID 23609581

Citations 11

Authors

Ching-Yen Lin

Mei-Chin Lu

Jui-Hsin Su

Ching-Liang Chu

David Shiuan

Ching-Feng Weng

Ping-Jyun Sung

Kao-Jean Huang

Affiliations

Soon will be listed here.

Abstract

Dendritic cells (DCs) are antigen presenting cells, which can present antigens to T-cells and play an important role in linking innate and adaptive immunity. DC maturation can be induced by many stimuli, including pro-inflammatory cytokines and bacterial products, such as lipopolysaccharides (LPS). Here, we examined the immunomodulatory effects of marine cembrane compounds, (9E,13E)-5-acetoxy-6-hydroxy-9,13-dimethyl-3- methylene-3,3a,4,5,6,7,8,11,12,14a-decahydro-2H-cyclotrideca[b]furan-2-one (1), (9E,13E)- 5-acetoxy-6-acetyl-9,13-dimethyl-3-methylene-3,3a,4,5,6,7,8,11,12,14a-decahydro-2H-cyclotrideca[b]furan-2-one (2), lobocrassin B (3), (-)14-deoxycrassin (4), cembranolide B (5) and 13-acetoxysarcocrassolide (6) isolated from a soft coral, Lobophytum crassum, on mouse bone marrow-derived dendritic cells (BMDCs). The results revealed that cembrane-type diterpenoids, especially lobocrassin B, effectively inhibited LPS-induced BMDC activation by inhibiting the production of TNF-α. Pre-treatment of BMDCs with Lobocrassin B for 1 h is essential to prohibit the following activation induced by various toll-like receptor (TLR) agonists, such as LPS, zymosan, lipoteichoic acid (LTA) and Pam2CSK4. Inhibition of NF-κB nuclear translocation by lobocrassin B, which is a key transcription factor for cytokine production in TLR signaling, was evident as assayed by high-content image analysis. Lobocrassin B attenuated DC maturation and endocytosis as the expression levels of MHC class II and the co-stimulatory molecules were downregulated, which may affect the function of DCs to initiate the T-cell responses. Thus, lobocrassin B may have the potential in treatment of immune dysregulated diseases in the future.

Citing Articles

Marine-Derived Diterpenes from 2019 to 2024: Structures, Biological Activities, Synthesis and Potential Applications.

Zhang L, Li D, Chen X, Zhao F Mar Drugs. 2025; 23(2).

PMID: 39997196 PMC: 11857513. DOI: 10.3390/md23020072.

Crassolide Induces G2/M Cell Cycle Arrest, Apoptosis, and Autophagy in Human Lung Cancer Cells via ROS-Mediated ER Stress Pathways.

Lai K, Wang J, Lin S, Wen Y, Wu C, Su J Int J Mol Sci. 2022; 23(10).

PMID: 35628435 PMC: 9144222. DOI: 10.3390/ijms23105624.

Marine-Derived Compounds for the Potential Treatment of Glucocorticoid Resistance in Severe Asthma.

Ghiciuc C, Vicovan A, Stafie C, Antoniu S, Postolache P Mar Drugs. 2021; 19(11).

PMID: 34822457 PMC: 8620935. DOI: 10.3390/md19110586.

Crassolide Suppresses Dendritic Cell Maturation and Attenuates Experimental Antiphospholipid Syndrome.

Lin C, Chang Y, Lin S, Su J, Chao Y, Tang K Molecules. 2021; 26(9).

PMID: 33923336 PMC: 8123116. DOI: 10.3390/molecules26092492.

13-Acetoxysarcocrassolide Exhibits Cytotoxic Activity Against Oral Cancer Cells Through the Interruption of the Keap1/Nrf2/p62/SQSTM1 Pathway: The Need to Move Beyond Classical Concepts.

Liu Y, Peng B, Hsu K, El-Shazly M, Shih S, Lin T Mar Drugs. 2020; 18(8).

PMID: 32718084 PMC: 7459766. DOI: 10.3390/md18080382.

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