Kamala Sundararaj scite author profile

In this study, endogenous long chain ceramides were measured in 32 human head and neck squamous cell carcinoma (HNSCC) and 10 nonsquamous head and neck carcinoma tumor tissues, as compared with adjacent noncancerous tissues, by liquid chromatography/ mass spectroscopy. Interestingly, only one specific ceramide, C 18:0 -ceramide, was selectively down-regulated in the majority of HNSCC tumor tissues. On the other hand, in nonsquamous tumor tissues, this selectivity for C 18 -ceramide was not detected. These data suggested the hypotheses that decreased levels of C 18 -ceramide might impart a growth advantage to HNSCC cells and that increased generation of C 18 -ceramide may be involved in the inhibition of growth. These roles were examined by reconstitution of C 18 -ceramide at physiologically relevant concentrations in UM-SCC-22A cells (squamous cell carcinoma of hypopharynx) via overexpression of mammalian upstream regulator of growth and differentiation factor 1 (mUOG1), a mouse homologue of longevity assurance gene 1 (mLAG1), which has been shown to specifically induce the generation of C 18 -ceramide. Liquid chromatography/mass spectroscopy analysis showed that overexpression of the mLAG1/ mUOG1 resulted in increased levels of only C 18:0 -ceramide by ϳ2-fold, i.e. concentrations similar to those of normal head and neck tissues. Importantly, increased generation of C 18 -ceramide by mLAG1/mUOG1 inhibited cell growth (ϳ70 -80%), which mechanistically involved the modulation of telomerase activity and induction of apoptotic cell death by mitochondrial dysfunction. In conclusion, this study demonstrates, for the first time, a biological role for LAG1 and C 18 -ceramide in the regulation of growth of HNSCC.

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Lactate Boosts TLR4 Signaling and NF-κB Pathway-Mediated Gene Transcription in Macrophages via Monocarboxylate Transporters and MD-2 Up-Regulation

Samuvel

Sundararaj²,

Nareika³

et al. 2009

187

152

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It has been shown that lactate induces insulin resistance. However, the underlying mechanisms have not been well understood. Based on our observation that lactate augments LPS-stimulated inflammatory gene expression, we proposed that lactate may enhance TLR4 signaling in macrophages, which has been shown to play an important role in insulin resistance in adipocytes. In this study, we demonstrated that lactate stimulated MD-2, a coreceptor for TLR4 signaling activation, NF-κB transcriptional activity, and the expression of inflammatory genes in human U937 histiocytes (resident macrophages). Similar enhancement of the inflammatory gene expression by lactate was also observed in human monocyte-derived macrophages. The essential role of MD-2 in lactate-augmented TLR4 signaling was confirmed by observation that the suppression of MD-2 expression by small interfering RNA led to significant inhibition of inflammatory gene expression. To further elucidate how lactate treatment enhances TLR4 activation, we showed that the augmentation of inflammatory gene expression by lactate was abrogated by antioxidant treatment, suggesting a critical role of reactive oxygen species in the enhancement of TLR4 activation by lactate. Finally, we showed that α-cyano-4-hydroxycinnamic acid, a classic inhibitor for monocarboxylate transporters, blocked lactate-augmented inflammatory gene expression and nuclear NF-κB activity, indicating that lactate transport through monocarboxylate transporters is required for lactate-enhanced TLR4 activation. Collectively, this study documents that lactate boosts TLR4 activation and NF-κB-dependent inflammatory gene expression via monocarboxylate transporters and MD-2 up-regulation.

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Rapid Shortening of Telomere Length in Response to Ceramide Involves the Inhibition of Telomere Binding Activity of Nuclear Glyceraldehyde-3-phosphate Dehydrogenase

Sundararaj¹,

Wood²,

Ponnusamy³

et al. 2004

Journal of Biological Chemistry

124

111

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Ceramide has been demonstrated as one of the upstream regulators of telomerase activity. However, the role for ceramide in the control of telomere length remains unknown. It is shown here that treatment of the A549 human lung adenocarcinoma cells with C 6 -ceramide results in rapid shortening of telomere length. During the examination of ceramide-regulated telomere-binding proteins, nuclear glyceraldehyde-3-phosphate dehydrogenase (GAPDH) was identified to associate with both singleand double-stranded telomeric DNA with high specificity in vitro. The association of nuclear GAPDH with telomeres in interphase nuclei was also demonstrated by co-fluorescence in situ hybridization and chromatin immunoprecipitation analysis. Further data demonstrated that the nuclear localization of GAPDH is regulated by ceramide in a cell cycle-dependent manner parallel with the inhibition of its telomere binding activity in response to ceramide. In addition, the results revealed that nuclear GAPDH is distinct from its cytoplasmic isoform and that telomere binding function of nuclear GAPDH is strikingly higher than the cytoplasmic isoform. More importantly, the functional role for nuclear GAPDH in the maintenance and/or protection of telomeric DNA was identified by partial inhibition of the expression of GAPDH using small interfering RNA, which resulted in rapid shortening of telomeres. In contrast, overexpression of nuclear GAPDH resulted in the protection of telomeric DNA in response to exogenous ceramide as well as in response to anticancer drugs, which have been shown to induce endogenous ceramide levels. Therefore, these results demonstrate a novel function for nuclear GAPDH in the maintenance and/or protection of telomeres and also show that mechanisms of the rapid degradation of telomeres in response to ceramide involve the inhibition of the telomere binding activity of nuclear GAPDH.

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Potent Antitumor Activity of a Novel Cationic Pyridinium-Ceramide Alone or in Combination with Gemcitabine against Human Head and Neck Squamous Cell Carcinomas in Vitro and in Vivo

Senkal¹,

Ponnusamy²,

Rossi³

et al. 2006

J Pharmacol Exp Ther

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In this study, a cationic water-soluble ceramide analog L-threo-C 6 -pyridinium-ceramide-bromide (L-t-C 6 -Pyr-Cer), which exhibits high solubility and bioavailability, inhibited the growth of various human head and neck squamous cell carcinoma (HNSCC) cell lines at low IC 50 concentrations, independent of their p53 status. Consistent with its design to target negatively charged intracellular compartments, L-t-C 6 -Pyr-Cer accumulated mainly in mitochondria-, and nuclei-enriched fractions upon treatment of human UM-SCC-22A cells [human squamous cell carcinoma (SCC) of the hypopharynx] at 1 to 6 h. In addition to its growth-inhibitory function as a single agent, the supra-additive interaction of L-t-C 6 -Pyr-Cer with gemcitabine (GMZ), a chemotherapeutic agent used in HNSCC, was determined using isobologram studies. Then, the effects of this ceramide, alone or in combination with GMZ, on the growth of UM-SCC-22A xenografts in SCID mice was assessed following the determination of preclinical parameters, such as maximum tolerated dose, clearance from the blood, and bioaccumulation. Results demonstrated that treatment with L-t-C 6 -PyrCer in combination with GMZ significantly prevented the growth of HNSCC tumors in vivo. The therapeutic efficacy of L-t-C 6 -Pyr-Cer/ GMZ combination against HNSCC tumors was approximately 2.5-fold better than that of the combination of 5-fluorouracil/cisplatin. In addition, liquid chromatography/mass spectroscopy analysis showed that the levels of L-t-C 6 -Pyr-Cer in HNSCC tumors weresignificantly higher than its levels in the liver and intestines; interestingly, the combination with GMZ increased the sustained accumulation of this ceramide by approximately 40%. Moreover, treatment with L-t-C 6 -Pyr-Cer/GMZ combination resulted in a significant inhibition of telomerase activity and decrease in telomere length in vivo, which are among downstream targets of ceramide.Human head and neck squamous cell carcinomas (HNSCCs) are among the five most common cancers in the world. Global occurrence of HNSCC is high, and it is estimated that approximately 780,000 new patients are diagnosed with HNSCC each year in the adult population. There are approximately 41,000 new HNSCC cases diagnosed annually in the United States in 2004, and the overall 5-year survival of patients with stage III and IV disease remains less than 50% (Her, 2001;Jemal et al., 2004).Historically, chemotherapy did not play a curative role in the treatment of HNSCC but was reserved for palliative therapy. Surgery and radiation therapy remained the primary curative options; however, complications of these ther-

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Interleukin-6 Released from Fibroblasts Is Essential for Up-regulation of Matrix Metalloproteinase-1 Expression by U937 Macrophages in Coculture

Sundararaj

Samuvel

et al. 2009

Journal of Biological Chemistry

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Matrix metalloproteinases (MMPs) play a key role in periodontal disease. Although it is known that macrophages and fibroblasts are co-localized and express MMPs in the diseased periodontal tissue, the effect of interaction between these two cell types on MMP expression has not been well elucidated. Furthermore although it is known that diabetes is associated with accelerated periodontal tissue destruction, it remains unknown whether hyperglycemia, a major metabolic abnormality in diabetes, regulates MMP expression by affecting the cross-talking between fibroblasts and macrophages. In this study, human gingival fibroblasts and U937 macrophages were cocultured in a two-compartment transwell culture system, and the cells were treated with normal or high glucose. We found that coculture of fibroblasts and U937 macrophages led to an augmentation of MMP-1 expression by U937 macrophages, and high glucose further enhanced this augmentation. Similar observations were also made in the coculture of fibroblasts and human primary monocytes. We also found that interleukin 6 (IL-6) released by fibroblasts was essential for the augmentation of MMP-1 expression by U937 macrophages. Furthermore our results showed that high glucose, IL-6, and lipopolysaccharide had a synergistic effect on MMP-1 expression. Finally our study indicated that MAPK pathways and activator protein-1 transcription factor were involved in the coculture-and high glucoseaugmented MMP-1 expression. In conclusion, this study demonstrates that IL-6 derived from fibroblasts is essential for MMP-1 up-regulation by cross-talking between fibroblasts and U937 macrophages exposed to high glucose, revealing an IL-6-dependent mechanism in MMP-1 up-regulation.

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