Rottlerin is a lipid of Polyketides (PK) class. Rottlerin is associated with abnormalities such as PARAGANGLIOMAS 2, Hyperostosis, Diffuse Idiopathic Skeletal, Virus Diseases, Perisylvian syndrome and Autoimmune disease (systemic) NOS. The involved functions are known as Apoptosis, Regulation, Signal Transduction, inhibitors and Proteasome Inhibitors [MoA]. Rottlerin often locates in Clone, Membrane, Body tissue, Plasma membrane and soluble. The associated genes with Rottlerin are XIAP gene, GAPDH gene, ICAM1 gene, P4HTM gene and TNFSF10 gene. The related lipids are Promega, Fatty Acids, Sphingolipids, Lipopolysaccharides and Saponin. The related experimental models are Mouse Model, Xenograft Model and Cancer Model.
To understand associated biological information of rottlerin, we collected biological information of abnormalities, associated pathways, cellular/molecular locations, biological functions, related genes/proteins, lipids and common seen animal/experimental models with organized paragraphs from literatures.
rottlerin is suspected in Infection, Morphologically altered structure, Ischemia, Pulmonary Edema, Asthma, Cardiovascular Diseases and other diseases in descending order of the highest number of associated sentences.
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We collected disease MeSH terms mapped to the references associated with rottlerin
There are no associated biomedical information in the current reference collection.
Associated locations are in red color. Not associated locations are in black.
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Cancer Model are used in the study 'Rottlerin stimulates apoptosis in pancreatic cancer cells through interactions with proteins of the Bcl-2 family.' (Ohno I et al., 2010) and Cancer Model are used in the study 'Rottlerin induces Wnt co-receptor LRP6 degradation and suppresses both Wnt/β-catenin and mTORC1 signaling in prostate and breast cancer cells.' (Lu W et al., 2014).
Mouse Model are used in the study 'Neuroprotective effect of protein kinase C delta inhibitor rottlerin in cell culture and animal models of Parkinson's disease.' (Zhang D et al., 2007).
Xenograft Model are used in the study 'Rottlerin stimulates apoptosis in pancreatic cancer cells through interactions with proteins of the Bcl-2 family.' (Ohno I et al., 2010).
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Authors | Title | Published | Journal | PubMed Link |
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Chen ZF et al. | [The effect of PKC-delta inhibitor Rottlerin on human colon cancer cell line SW1116 and its mechanism]. | 2006 | Zhonghua Zhong Liu Za Zhi | pmid:17236547 |
Fan Y et al. | [Phosphorylation of PKCdelta participates in the toxicity of 6-hydroxydopamine on dopaminergic neuroblastoma cell]. | 2006 | Zhonghua Yi Xue Za Zhi | pmid:17313780 |
Wang H et al. | Inhibitor analysis revealed that clathrin-mediated endocytosis is involed in cellular entry of type III grass carp reovirus. | 2018 | Virol. J. | pmid:29793525 |
Mendonça MC et al. | Protein kinase C-δ (PKC-δ) and PKC-α mediate Ca(2+)-dependent increases in CNP mRNA in human vascular cells. | 2012 Sep-Oct | Vascul. Pharmacol. | pmid:22583821 |
Soltoff SP | Rottlerin: an inappropriate and ineffective inhibitor of PKCdelta. | 2007 | Trends Pharmacol. Sci. | pmid:17692392 |
da Silva Cunha KC et al. | A phospholipase Aâ‚‚ isolated from Lachesis muta snake venom increases the survival of retinal ganglion cells in vitro. | 2011 | Toxicon | pmid:21223976 |
So KY and Oh SH | Cadmium-induced heme-oxygenase-1 expression plays dual roles in autophagy and apoptosis and is regulated by both PKC-δ and PKB/Akt activation in NRK52E kidney cells. | 2016 | Toxicology | pmid:27658547 |
Lee SE et al. | Upregulation of heme oxygenase-1 as an adaptive mechanism for protection against crotonaldehyde in human umbilical vein endothelial cells. | 2011 | Toxicol. Lett. | pmid:21238556 |
Hwang YP et al. | 3-Caffeoyl, 4-dihydrocaffeoylquinic acid from Salicornia herbacea inhibits tumor cell invasion by regulating protein kinase C-delta-dependent matrix metalloproteinase-9 expression. | 2010 | Toxicol. Lett. | pmid:20599481 |
Kim MH et al. | EX4 stabilizes and activates Nrf2 via PKCδ, contributing to the prevention of oxidative stress-induced pancreatic beta cell damage. | 2017 | Toxicol. Appl. Pharmacol. | pmid:27939242 |
Chen JH et al. | Rottlerin stimulates metallothionein gene expression but inhibits metal transport in Chinese hamster ovary cells. | 2001 | Toxicol. Appl. Pharmacol. | pmid:11749125 |
Cruciani V and Mikalsen SO | Mechanisms involved in responses to the poroxisome proliferator WY-14,643 on gap junctional intercellular communication in V79 hamster fibroblasts. | 2002 | Toxicol. Appl. Pharmacol. | pmid:12127264 |
Yang JH et al. | Isorhamnetin protects against oxidative stress by activating Nrf2 and inducing the expression of its target genes. | 2014 | Toxicol. Appl. Pharmacol. | pmid:24211276 |
Kim KM et al. | Puerarin suppresses AGEs-induced inflammation in mouse mesangial cells: a possible pathway through the induction of heme oxygenase-1 expression. | 2010 | Toxicol. Appl. Pharmacol. | pmid:20060010 |
Zhang D et al. | Effects of manganese on tyrosine hydroxylase (TH) activity and TH-phosphorylation in a dopaminergic neural cell line. | 2011 | Toxicol. Appl. Pharmacol. | pmid:21310168 |
Kolasa E et al. | Phorbol ester-modulation of estrogenic genomic effects triggered by the environmental contaminant benzanthracene. | 2012 | Toxicol In Vitro | pmid:22643241 |
Jang BC | Induction of COX-2 in human airway cells by manganese: role of PI3K/PKB, p38 MAPK, PKCs, Src, and glutathione depletion. | 2009 | Toxicol In Vitro | pmid:19084589 |
Prudnikova TY and Chernoff J | The Group I Pak inhibitor Frax-1036 sensitizes 11q13-amplified ovarian cancer cells to the cytotoxic effects of Rottlerin. | 2017 | Small GTPases | pmid:27427770 |
Huda R et al. | Selective activation of protein kinase C delta in human neutrophils following ischemia reperfusion of skeletal muscle. | 2004 | Shock | pmid:15167677 |
Maioli E et al. | Rottlerin and cancer: novel evidence and mechanisms. | 2012 | ScientificWorldJournal | pmid:22272173 |