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1.
ACS Pharmacol Transl Sci ; 7(7): 2185-2195, 2024 Jul 12.
Artículo en Inglés | MEDLINE | ID: mdl-39022349

RESUMEN

High-grade serous ovarian cancer is the most common and lethal gynecologic malignancy, which is often attributed to the lack of available screenings, allowing the disease to progress unnoticed until it is diagnosed at more aggressive stages. As such, identifying signals in the tumor microenvironment involved in the primary metastasis of tumorigenic fallopian tube epithelial (FTE) cells to the ovary could provide new avenues for prevention, diagnostics, or therapeutic intervention. Since our previous work identified that the interaction of tumorigenic FTE and the ovary causes the release of norepinephrine (NE) from the ovary, we intended to determine the effects of ovarian NE on signaling and invasion of tumorigenic FTE models and high-grade serous ovarian cancer cell lines. We demonstrate that NE does not universally enhance migration, invasion, or adhesion by using multiple cell types but does alter specific oncogenic protein expression in certain models. In vivo, we found that blocking NE signaling via slow-release propranolol pellets significantly increased survival time in mice injected intraperitoneally with murine FTE cells engineered to stably express shRNA for PTEN and an activated KRAS expression construct. Finally, we identified that the metabolome released from the ovary is variable depending upon which cell type it is cocultured with, suggesting that distinct driver mutations in fallopian tube epithelial tumor models and early lesions can alter specific metabolomes within the surrounding ovarian microenvironment. These metabolomes provide the next frontier for evaluating local signals of the tumor microenvironment that facilitate ovarian spread of FTE lesions.

2.
J Am Soc Mass Spectrom ; 33(7): 1325-1328, 2022 Jul 06.
Artículo en Inglés | MEDLINE | ID: mdl-35640101

RESUMEN

Matrix-assisted laser desorption/ionization (MALDI) imaging mass spectrometry (IMS) is a useful technique for mapping the spatial distribution of molecules across biological samples. Sample preparation is crucial for MALDI-IMS; samples must be flat, dry, and cocrystallized with a matrix prior to analysis. Agarose-based samples can be difficult to consistently prepare as they are susceptible to environmental changes, which can lead to inconsistent drying and wrinkling on the sample surface. Small height differences may cause low ionization of target analytes or introduce artifacts in imaging data depending on the instrument used for analysis. To overcome the variations, a home-built robotic spinner was constructed and applied to agarose-based samples. This robotic spinner is inexpensive and easy to assemble, and when it was applied to agarose-based samples, accelerated the drying process and reduced wrinkles, improving the overall quality of the resulting IMS data.


Asunto(s)
Manejo de Especímenes , Sefarosa , Espectrometría de Masa por Láser de Matriz Asistida de Ionización Desorción/métodos
3.
Front Cell Dev Biol ; 10: 1042734, 2022.
Artículo en Inglés | MEDLINE | ID: mdl-36420136

RESUMEN

High grade serous ovarian cancer (HGSOC), the most lethal histotype of ovarian cancer, frequently arises from fallopian tube epithelial cells (FTE). Once transformed, tumorigenic FTE often migrate specifically to the ovary, completing the crucial primary metastatic step and allowing the formation of the ovarian tumors after which HGSOC was originally named. As only the fimbriated distal ends of the fallopian tube that reside in close proximity to the ovary develop precursor lesions such as serous tubal intraepithelial carcinomas, this suggests that the process of transformation and primary metastasis to the ovary is impacted by the local microenvironment. We hypothesize that chemical cues, including small molecules and proteins, may help stimulate the migration of tumorigenic FTE to the ovary. However, the specific mediators of this process are still poorly understood, despite a recent growth in interest in the tumor microenvironment. Our previous work utilized imaging mass spectrometry (IMS) to identify the release of norepinephrine (NE) from the ovary in co-cultures of tumorigenic FTE cells with an ovarian explant. We predicted that tumorigenic FTE cells secreted a biomolecule, not produced or produced with low expression by non-tumorigenic cells, that stimulated the ovary to release NE. As such, we utilized an IMS mass-guided bioassay, using NE release as our biological marker, and bottom-up proteomics to demonstrate that a secreted protein, SPARC, is a factor produced by tumorigenic FTE responsible for enhancing release of ovarian NE and influencing primary metastasis of HGSOC. This discovery highlights the bidirectional interplay between different types of biomolecules in the fallopian tube and ovarian microenvironment and their combined roles in primary metastasis and disease progression.

4.
J Med Chem ; 60(11): 4626-4635, 2017 06 08.
Artículo en Inglés | MEDLINE | ID: mdl-28493701

RESUMEN

Transmembrane protein 16A (TMEM16A), also called anoctamin 1 (ANO1), is a calcium-activated chloride channel expressed widely mammalian cells, including epithelia, vascular smooth muscle tissue, electrically excitable cells, and some tumors. TMEM16A inhibitors have been proposed for treatment of disorders of epithelial fluid and mucus secretion, hypertension, asthma, and possibly cancer. Herein we report, by screening, the discovery of 2-acylaminocycloalkylthiophene-3-carboxylic acid arylamides (AACTs) as inhibitors of TMEM16A and analysis of 48 synthesized analogs (10ab-10bw) of the original AACT compound (10aa). Structure-activity studies indicated the importance of benzene substituted as 2- or 4-methyl, or 4-fluoro, and defined the significance of thiophene substituents and size of the cycloalkylthiophene core. The most potent compound (10bm), which contains an unusual bromodifluoroacetamide at the thiophene 2-position, had IC50 of ∼30 nM, ∼3.6-fold more potent than the most potent previously reported TMEM16A inhibitor 4 (Ani9), and >10-fold improved metabolic stability. Direct and reversible inhibition of TMEM16A by 10bm was demonstrated by patch-clamp analysis. AACTs may be useful as pharmacological tools to study TMEM16A function and as potential drug development candidates.


Asunto(s)
Canales de Cloruro/antagonistas & inhibidores , Tiofenos/química , Tiofenos/farmacología , Animales , Anoctamina-1 , Ácidos Carboxílicos/química , Células Cultivadas , Humanos , Ratas , Ratas Endogámicas F344 , Relación Estructura-Actividad
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