Your search keyword '"Baglole, Carolyn J."' showing total 8 results

1. Differential inflammatory profile in the lungs of mice exposed to cannabis smoke with varying THC:CBD ratio.

Author

Haidar, Zahraa, Traboulsi, Hussein, Eidelman, David H., and Baglole, Carolyn J.

Subjects

LUNGS, COMBUSTION products, SMOKE, ALVEOLAR macrophages, DENDRITIC cells, T cells, NEUTROPHILS

Abstract

Cannabis contains cannabinoids including Δ9-tetrahydrocannabinol (THC) and cannabidiol (CBD). THC causes the psychoactive effects of cannabis, and both THC and CBD are thought to be anti-inflammatory. Cannabis is typically consumed by inhaling smoke that contains thousands of combustion products that may damage the lungs. However, the relationship between cannabis smoke exposure and alterations in respiratory health is poorly defined. To address this gap in knowledge, we first developed a mouse model of cannabis smoke exposure using a nose-only rodent inhalation exposure system. We then tested the acute effects of two dried cannabis products that differ substantially in their THC–CBD ratio: Indica-THC dominant (I-THC; 16–22% THC) and Sativa-CBD dominant (S-CBD; 13–19% CBD). We demonstrate that this smoke exposure regime not only delivers physiologically relevant levels of THC to the bloodstream, but that acute inhalation of cannabis smoke modulates the pulmonary immune response. Cannabis smoke decreased the percentage of lung alveolar macrophages but increased lung interstitial macrophages (IMs). There was also a decrease in lung dendritic cells as well as Ly6Cintermediate and Ly6Clow monocytes, but an increase in lung neutrophils and CD8+ T cells. These immune cell changes were paralleled with changes in several immune mediators. These immunological modifications were more pronounced when mice were exposed to S-CBD compared to the I-THC variety. Thus, we show that acute cannabis smoke differentially affects lung immunity based on the THC:CBD ratio, thereby providing a foundation to further explore the effect of chronic cannabis smoke exposures on pulmonary health. [ABSTRACT FROM AUTHOR]

Published

2023

2. Differential impact of JUUL flavors on pulmonary immune modulation and oxidative stress responses in male and female mice.

Author

Been, Terek, Traboulsi, Hussein, Paoli, Sofia, Alakhtar, Bayan, Mann, Koren K., Eidelman, David H., and Baglole, Carolyn J.

Subjects

OXIDATIVE stress, IMMUNOREGULATION, FLAVOR, ELECTRONIC cigarettes, LABORATORY mice, COTININE

Abstract

JUUL is a popular e-cigarette brand that manufactures e-liquids in a variety of flavors, such as mango and mint. Despite their popularity, the pulmonary effects of flavored JUUL e-liquids that are aerosolized and subsequently inhaled are not known. Therefore, the purpose of this study was to evaluate if acute exposure to JUUL e-cigarette aerosols in three popular flavors elicits an immunomodulatory or oxidative stress response in mice. We first developed a preclinical model that mimics human use patterns of e-cigarettes using 1 puff/min or 4 puffs/min exposure regimes. Based on cotinine levels, these exposures were representative of light/occasional and moderate JUUL users. We then exposed C57BL/6 mice to JUUL e-cigarette aerosols in mango, mint, and Virginia tobacco flavors containing 5% nicotine for 3 days, and assessed the inflammatory and oxidative stress response in the lungs and blood. In response to the 1 puff/min regime (light/occasional user), there were minimal changes in BAL cell composition or lung mRNA expression. However, at 4 puffs/min (moderate user), mint-flavored JUUL significantly increased lung neutrophils, while mango-flavored JUUL significantly increased Tnfα and Il13 mRNA in the lungs. Both the 1- and 4 puffs/min regimes significantly increased oxidative stress markers in the blood, indicating systemic effects. Thus, JUUL products are not inert; even short-term inhalation of flavored JUUL e-cigarette aerosols differentially causes immune modulation and oxidative stress responses. [ABSTRACT FROM AUTHOR]

Published

2022

3. Endogenous regulation of the Akt pathway by the aryl hydrocarbon receptor (AhR) in lung fibroblasts.

Author

Shi, Fangyi, Aloufi, Noof, Traboulsi, Hussein, Trempe, Jean-François, Eidelman, David H., and Baglole, Carolyn J.

Subjects

ARYL hydrocarbon receptors, CELL survival, TRANSCRIPTION factors, EXTRACELLULAR matrix, FOCAL adhesions, LUNGS

Abstract

The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor known to mediate toxic responses to dioxin. However, the role of the AhR in the regulation of cellular physiology has only recently been appreciated, including its ability to control cell cycle progression and apoptosis by unknown mechanisms. We hypothesized that the AhR enhances the activation of the AKT serine/threonine kinase (Akt) pathway to promote cell survival. Utilizing AhR knock-out (Ahr−/−) and wild-type (Ahr+/+) mouse lung fibroblasts (MLFs), we found that Ahr−/− MLFs have significantly higher basal Akt phosphorylation but that AhR did not affect Akt phosphorylation in MLFs exposed to growth factors or AhR ligands. Basal Akt phosphorylation was dependent on PI3K but was unaffected by changes in intracellular glutathione (GSH) or p85α. There was no significant decrease in cell viability in Ahr−/− MLFs treated with LY294002—a PI3K inhibitor—although LY294002 did attenuate MTT reduction, indicating an affect on mitochondrial function. Using a mass spectrometry (MS)-based approach, we identified several proteins that were differentially phosphorylated in the Ahr−/− MLFs compared to control cells, including proteins involved in the regulation of extracellular matrix (ECM), focal adhesion, cytoskeleton remodeling and mitochondrial function. In conclusion, Ahr ablation increased basal Akt phosphorylation in MLFs. Our results indicate that AhR may modulate the phosphorylation of a variety of novel proteins not previously identified as AhR targets, findings that help advance our understanding of the endogenous functions of AhR. [ABSTRACT FROM AUTHOR]

Published

2021

4. Functional Assessment of Fibroblast Heterogeneity by the Cell-Surface Glycoprotein Thy-1.

Author

Chaponnier, Christine, Desmoulière, Alexis, Gabbiani, Giulio, Baglole, Carolyn J., Smith, Terry J., Foster, David, Sime, Patricia J., Feldon, Steve, and Phipps, Richard P.

Abstract

Fibroblasts are a heterogeneous population of structural cells whose primary function is the production of extracellular matrix for normal tissue maintenance and repair. However, fibroblasts provide much more than structural support as they synthesize and respond to many different cytokines and lipid mediators and are intimately involved in the processes of inflammation. It is now appreciated that fibroblasts exhibit phenotypic heterogeneity, differing not only between organ systems, but also within a given anatomical site. Subtypes of fibroblasts can be identified by the expression of markers such as Thy-1, a cell surface glycoprotein of unknown function. Initial characterization of fibroblasts as Thy-1+ or Thy-1− can be performed by immunofluorescence or flow cytometry. They can be sorted according to their expression of Thy-1 by fluorescence-activated cell sorting (FACS), cloning and/or magnetic beading, yielding greater than 99% purity. Fibroblasts that are separated into Thy-1+ and Thy-1− subsets exhibit differences in their morphological, immunological and proliferative responses and ability to differentiate into a-smooth muscle actin-expressing myofibroblasts and adipocyte-like lipofibroblasts, key cells for wound healing and fibrotic disorders. The identification of Thy-1 as a surface marker by which to separate fibroblast subtypes has yielded vital insight into diseases such as scarring and wound healing and highlights the concept of fibroblast heterogeneity. Future research into fibroblast subsets may lead to the tissue-specific treatment of disease such as idiopathic pulmonary fibrosis and Graves’ ophthalmopathy. [ABSTRACT FROM AUTHOR]

Published

2006

5. Isolation and Phenotypic Characterization of Lung Fibroblasts.

Author

Walker, John M., Varga, John, Brenner, David A., Phan, Sem H., Baglole, Carolyn J., Reddy, Sireesha Y., Pollock, Stephen J., Feldon, Steven E., Sime, Patricia J., Smith, Terry J., and Phipps, Richard P.

Abstract

Primary fibroblasts represent a heterogeneous population of cells that can be separated into subsets on the basis of cell surface markers such as Thy-1. Deriving fibroblasts initially involves obtaining tissue explants from tissues such as the lung, heart, cornea, skin, and orbit. The tissue is mechanically dissociated and cells are allowed to proliferate from the fragments. Following establishment of a primary culture of fibroblasts, it is necessary to characterize the new strain of cells to ensure their purity and fibroblastic phenotype using immunofluorescence and immunohistochemistry to detect the presence or absence of cell-specific surface markers. Characterizing the cells as expressing or lacking Thy-1 can also be performed by immunofluorescence in concert with microscopy or by flow cytometry using an anti-human Thy-1 antibody. In addition, fibroblasts may be sorted according to their expression of Thy-1 by fluorescence-activated cell sorting and/or magnetic beading; use of these techniques can yield greater than 99% purity. Once separated, the pure Thy-1 expressing or lacking fibroblast subsets can be propagated. These subsets can then be used for experimentation to determine functional differences between fibroblasts derived from normal and pathological tissue such as scarred lung. [ABSTRACT FROM AUTHOR]

Published

2005

6. Peroxisome proliferator-activated receptor gamma overexpression and knockdown: impact on human B cell lymphoma proliferation and survival.

Author

Garcia-Bates, Tatiana M., Peslak, Scott A., Baglole, Carolyn J., Maggirwar, Sanjay B., Bernstein, Steven H., and Phipps, Richard P.

Subjects

B cells, LYMPHOMAS, PEROXISOMES, APOPTOSIS, CELL death

Abstract

Peroxisome proliferator-activated receptor gamma (PPARγ) is a multifunctional transcription factor that regulates adipogenesis, immunity and inflammation. Our laboratory previously demonstrated that PPARγ ligands induce apoptosis in malignant B cells. While malignant B lineage cells such as B cell lymphoma express PPARγ, its physiological function remains unknown. Herein, we demonstrate that silencing PPARγ expression by RNAi in human Burkitt’s type B lymphoma cells increased basal and mitogen-induced proliferation and survival, which was accompanied by enhanced NF-κB activity and increased expression of Bcl-2. These cells also had increased survival upon exposure to PPARγ ligands and exhibited a less differentiated phenotype. In contrast, PPARγ overexpression in B lymphoma cells inhibited cell growth and decreased their proliferative response to mitogenic stimuli. These cells were also more sensitive to PPARγ-ligand induced growth arrest and displayed a more differentiated phenotype. Collectively, these findings support a regulatory role for PPARγ in the proliferation, survival and differentiation of malignant B cells. These findings further suggest the potential of PPARγ as a therapeutic target for B cell malignancy. [ABSTRACT FROM AUTHOR]

Published

2009

7. Endocrine aryl hydrocarbon receptor signaling is induced by moderate cutaneous exposure to ultraviolet light.

Author

Memari, Babak, Nguyen-Yamamoto, Loan, Salehi-Tabar, Reyhaneh, Zago, Michela, Fritz, Jorg H., Baglole, Carolyn J., Goltzman, David, and White, John H.

Abstract

Links between solar UV exposure and immunity date back to the ancient Greeks with the development of heliotherapy. Skin contains several UV-sensitive chromophores and exposure to sunlight can produce molecules, such as vitamin D3, that act in an endocrine manner. We investigated the role of the aryl hydrocarbon receptor (AHR), an environmental sensor and ligand-regulated transcription factor activated by numerous planar compounds of endogenous, dietary or environmental origin. 15- to 30-minute exposure of cells to a minimal erythemal dose of UVB irradiation in vitro induced translocation of the AHR to the nucleus, rapidly inducing site-specific DNA binding and target gene regulation. Importantly, ex vivo studies with Ahr wild-type or null fibroblasts showed that serum from mice whose skin was exposed to a 15 min UVB dose, but not control serum, contained agonist activity within 30 min of UV irradiation, inducing AHR-dependent gene expression. Moreover, a 15-min cutaneous UVB exposure induced AHR site-specific DNA binding and target gene regulation in vivo within 3–6 hr post-irradiation in blood and in peripheral tissues, including intestine. These results show that cutaneous exposure of mice to a single minimal erythemic dose of UVB induces rapid AHR signaling in multiple peripheral organs, providing compelling evidence that moderate sun exposure can exert endocrine control of immunity through the AHR. [ABSTRACT FROM AUTHOR]

Published

2019

8. Aryl hydrocarbon receptor (AhR)-dependent regulation of pulmonary miRNA by chronic cigarette smoke exposure.

Author

Rogers, Sarah, de Souza, Angela Rico, Zago, Michela, Iu, Matthew, Guerrina, Necola, Gomez, Alvin, Matthews, Jason, and Baglole, Carolyn J.

Abstract

The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor historically known for its toxic responses to man-made pollutants such as dioxin. More recently, the AhR has emerged as a suppressor of inflammation, oxidative stress and apoptosis from cigarette smoke by mechanisms that may involve the regulation of microRNA. However, little is known about the AhR regulation of miRNA expression in the lung in response to inhaled toxicants. Therefore, we exposed Ahr−/− and Ahr+/− mice to cigarette smoke for 4 weeks and evaluated lung miRNA expression by PCR array. There was a dramatic regulation of lung miRNA by the AhR in the absence of exogenous ligand. In response to cigarette smoke, there were more up-regulated miRNA in Ahr−/− mice compared to Ahr+/− mice, including the cancer-associated miRNA miR-96. There was no significant change in the expression of the AhR regulated proteins HuR and cyclooxygenase-2 (COX-2). There were significant increases in the anti-oxidant gene sulfiredoxin 1 (Srxn1) and FOXO3a- predicted targets of miR-96. Collectively, these data support a prominent role for the AhR in regulating lung miRNA expression. Further studies to elucidate a role for these miRNA may further uncover novel biological function for the AhR in respiratory health and disease. [ABSTRACT FROM AUTHOR]

Published

2017