Your search keyword '"Nataliya Karashchuk"' showing total 4 results

1. A Clinically Applicable Positive Allosteric Modulator of GABA Receptors Promotes Human β-Cell Replication and Survival as well as GABA’s Ability to Inhibit Inflammatory T Cells

Author

Jide Tian, Hoa Dang, Nataliya Karashchuk, Irvin Xu, and Daniel L. Kaufman

Subjects

Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

A major goal of T1D research is to develop new approaches to increase β-cell mass and control autoreactive T cell responses. GABAA-receptors (GABAA-Rs) are promising drug targets in both those regards due to their abilities to promote β-cell replication and survival, as well as inhibit autoreactive T cell responses. We previously showed that positive allosteric modulators (PAMs) of GABAA-Rs could promote rat β-cell line INS-1 and human islet cell replication in vitro. Here, we assessed whether treatment with alprazolam, a widely prescribed GABAA-R PAM, could promote β-cell survival and replication in human islets after implantation into NOD/scid mice. We observed that alprazolam treatment significantly reduced human islet cell apoptosis following transplantation and increased β-cell replication in the xenografts. Evidently, the GABAA-R PAM works in conjunction with GABA secreted from β-cells to increase β-cell survival and replication. Treatment with both the PAM and GABA further enhanced human β-cell replication. Alprazolam also augmented the ability of suboptimal doses of GABA to inhibit antigen-specific T cell responses in vitro. Thus, combined GABAA-R agonist and PAM treatment may help control inflammatory immune responses using reduced drug dosages. Together, these findings suggest that GABAA-R PAMs represent a promising drug class for safely modulating islet cells toward beneficial outcomes to help prevent or reverse T1D and, together with a GABAA-R agonist, may have broader applications for ameliorating other disorders in which inflammation contributes to the disease process.

Published

2019

2. Nociception Index Level (NOL) Perioperative Monitoring During Regional Anesthesia (NOL and LRA)

Author

Nataliya KARASHCHUK, Briana LUI, Thierry GUENOUN, Stephane ROMANO, and Gilles BOCCARA, anesthesiologist, MD, PhD

Published

2024

3. A Clinically Applicable Positive Allosteric Modulator of GABA Receptors Promotes Human β-Cell Replication and Survival as well as GABA's Ability to Inhibit Inflammatory T Cells

Author

Irvin Xu, Nataliya Karashchuk, Jide Tian, Hoa Dang, and Daniel L. Kaufman

Subjects

Endocrinology, Diabetes and Metabolism, T-Lymphocytes, Medical Physiology, Apoptosis, Mice, SCID, Pharmacology, Inbred C57BL, lcsh:Diseases of the endocrine glands. Clinical endocrinology, GABA, Mice, Endocrinology, Mice, Inbred NOD, Insulin-Secreting Cells, Receptors, 2.1 Biological and endogenous factors, Aetiology, gamma-Aminobutyric Acid, geography.geographical_feature_category, Cell cycle, Islet, medicine.anatomical_structure, Cell Division, Research Article, Agonist, Allosteric modulator, Article Subject, medicine.drug_class, Cell Survival, T cell, 1.1 Normal biological development and functioning, SCID, Autoimmune Disease, Islets of Langerhans, Immune system, Receptors, GABA, Underpinning research, medicine, Animals, Humans, Cell Proliferation, Inflammation, geography, lcsh:RC648-665, Alprazolam, business.industry, Transplantation, Mice, Inbred C57BL, nervous system, Inbred NOD, Muramidase, business

Abstract

A major goal of T1D research is to develop new approaches to increase β-cell mass and control autoreactive T cell responses. GABAA-receptors (GABAA-Rs) are promising drug targets in both those regards due to their abilities to promote β-cell replication and survival, as well as inhibit autoreactive T cell responses. We previously showed that positive allosteric modulators (PAMs) of GABAA-Rs could promote rat β-cell line INS-1 and human islet cell replication in vitro. Here, we assessed whether treatment with alprazolam, a widely prescribed GABAA-R PAM, could promote β-cell survival and replication in human islets after implantation into NOD/scid mice. We observed that alprazolam treatment significantly reduced human islet cell apoptosis following transplantation and increased β-cell replication in the xenografts. Evidently, the GABAA-R PAM works in conjunction with GABA secreted from β-cells to increase β-cell survival and replication. Treatment with both the PAM and GABA further enhanced human β-cell replication. Alprazolam also augmented the ability of suboptimal doses of GABA to inhibit antigen-specific T cell responses in vitro. Thus, combined GABAA-R agonist and PAM treatment may help control inflammatory immune responses using reduced drug dosages. Together, these findings suggest that GABAA-R PAMs represent a promising drug class for safely modulating islet cells toward beneficial outcomes to help prevent or reverse T1D and, together with a GABAA-R agonist, may have broader applications for ameliorating other disorders in which inflammation contributes to the disease process.

Published

2019

4. Abstract 4409: Cholesterol pathway determines ovarian cancer drug resistance through transcription factor SREBP2

Author

Galina Karashchuk, Tyler S. Smith, Nataliya Karashchuk, Alexander S. Brodsky, and Signe Caksa

Subjects

Cancer Research, business.industry, Cholesterol, Drug resistance, Pharmacology, medicine.disease, chemistry.chemical_compound, Oncology, chemistry, Cancer research, Medicine, business, Ovarian cancer, Transcription factor

Abstract

Ovarian cancer is the most common cause of gynecological cancer death in women in United States. Up to 70% of all ovarian cancer cases are high-grade serous carcinomas with 5-year survival rates less than 30%. Recent studies have suggested the importance of the cholesterol pathway in multiple cancers including gynecological malignancies. Here we demonstrate that genetic or pharmacological disturbance of cholesterol pathway in high-grade serous ovarian carcinoma cell lines results in significant changes in survival rate after drug treatment, and in protein and RNA expression patterns. SREBP2 is a transcription factor encoded by SREBF2 gene that regulates expression of sterol-regulated genes and thus maintains cholesterol homeostasis. To assess the role of SREBP2 in ovarian cancer we have created a stable OVCAR8 cell line with SREBF2 disrupted using CRISPR technology. This SREBF2-KD line has reduced SREBF2 mRNA and protein expression level that indicates an effective gene knockdown. Activation of SREBF2 is dependent on the cholesterol status of the cell. We observed that expression of the SREBP2 precursor form is significantly reduced in SREBF2-KD line when cells are maintained under low serum conditions. Mutant cells treated with paclitaxel in low, but not high serum or in presence of statin, revealed significantly lower cell viability. SREBF2-KD cells do not survive long-term, high concentrations of paclitaxel, nor do they grow back as efficiently as control cells. RNA expression and proteomic analysis revealed the critical regulators mediating SREBP2 activity in stressed cells. Together, these observations suggest that the cholesterol pathway is critical for ovarian cancer cells not only to resist stresses, such as chemotherapy, but also to return to a high proliferation state upon recurrence. Further studies will provide important targets for developing new drugs for treatment of ovarian cancer. Citation Format: Galina Karashchuk, Nataliya Karashchuk, Signe Caksa, Tyler S. Smith, Alexander S. Brodsky. Cholesterol pathway determines ovarian cancer drug resistance through transcription factor SREBP2 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 4409. doi:10.1158/1538-7445.AM2017-4409

Published

2017