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1. Proteomics Analysis of Proteotoxic Stress Response in In-Vitro Human Neuronal Models

Author

Ayodele Alaiya, Bothina Mohammed Alharbi, Zakia Shinwari, Mamoon Rashid, Tahani H. Albinhassan, Abderrezak Bouchama, Mai B. Alwesmi, Sameer Mohammad, and Shuja Shafi Malik

Subjects
neurons, proteostasis, heat shock, proteotoxic stress, stress response, proteomics, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Heat stroke, a hazardous hyperthermia-related illness, is characterized by CNS injury, particularly long-lasting brain damage. A root cause for hyperthermic neurological damage is heat-induced proteotoxic stress through protein aggregation, a known causative agent of neurological disorders. Stress magnitude and enduring persistence are highly correlated with hyperthermia-associated neurological damage. We used an untargeted proteomic approach using liquid chromatography–tandem mass spectrometry (LC-MS/MS) to identify and characterize time-series proteome-wide changes in dose-responsive proteotoxic stress models in medulloblastoma [Daoy], neuroblastoma [SH-SY5Y], and differentiated SH-SY5Y neuron-like cells [SH(D)]. An integrated analysis of condition–time datasets identified global proteome-wide differentially expressed proteins (DEPs) as part of the heat-induced proteotoxic stress response. The condition-specific analysis detected higher DEPs and upregulated proteins in extreme heat stress with a relatively conservative and tight regulation in differentiated SH-SY5Y neuron-like cells. Functional network analysis using ingenuity pathway analysis (IPA) identified common intercellular pathways associated with the biological processes of protein, RNA, and amino acid metabolism and cellular response to stress and membrane trafficking. The condition-wise temporal pathway analysis in the differentiated neuron-like cells detects a significant pathway, functional, and disease association of DEPs with processes like protein folding and protein synthesis, Nervous System Development and Function, and Neurological Disease. An elaborate dose-dependent stress-specific and neuroprotective cellular signaling cascade is also significantly activated. Thus, our study provides a comprehensive map of the heat-induced proteotoxic stress response associating proteome-wide changes with altered biological processes. This helps to expand our understanding of the molecular basis of the heat-induced proteotoxic stress response with potential translational connotations.

Published
2024
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2. Why Are Obese People Predisposed to Severe Disease in Viral Respiratory Infections?

Author

Rafia Aziz, Afak Yusuf Sherwani, Saeed Al Mahri, Shuja Shafi Malik, and Sameer Mohammad

Subjects
COVID-19, obesity, innate and adaptive immunity, inflammation, insulin resistance, viral respiratory infections, Food processing and manufacture, TP368-456, Nutritional diseases. Deficiency diseases, RC620-627
Abstract

Obesity is one of the most pressing healthcare concerns of the twenty-first century. Obesity prevalence has risen dramatically in recent decades, and in 2016, more than 1.9 billion adults were overweight (BMI ≥ 25 kg/m2) and 650 million were obese (BMI ≥ 30 kg/m2). About 50% of the world’s population is anticipated to be obese/overweight within the next decade. Obesity is a major risk factor for a variety of non-communicable diseases, including type 2 diabetes mellitus, cardiovascular disease, non-alcoholic fatty liver disease, and a variety of malignancies. Obesity has emerged as a substantial risk factor for hospitalization and death from viral respiratory infections such as influenza A and the ongoing pandemic SARS-CoV-2. Several independent studies have indicated that obese/overweight patients are at a higher risk of severe disease and death from these respiratory diseases. Excess fat, particularly visceral fat, contributes to the development of a variety of metabolic disorders, including persistent systemic inflammation and decreased immunological function. As a result, the immunological response to infectious pathogens is weakened, resulting in poorer outcomes post-infection. Additionally, the poor lung mechanics associated with obesity may increase the risk of more serious respiratory infections. In this review, we address the likely mechanism(s) that predispose obese people to severe diseases caused by viral respiratory infections.

Published
2023
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3. Heat-Induced Proteotoxic Stress Response in Placenta-Derived Stem Cells (PDSCs) Is Mediated through HSPA1A and HSPA1B with a Potential Higher Role for HSPA1B

Author

Bothina Mohammed Alharbi, Aisha Bugshan, Azhaar Almozel, Reem Alenzi, Abderrezak Bouchama, Tanvir Khatlani, Sameer Mohammad, and Shuja Shafi Malik

Subjects
proteostasis, heat shock, chaperones, HSPA1B, HSPA1A, stress response, Biology (General), QH301-705.5
Abstract

Placenta-derived stem cells (PDSCs), due to unique traits such as mesenchymal and embryonic characteristics and the absence of ethical constraints, are in a clinically and therapeutically advantageous position. To aid in stemness maintenance, counter pathophysiological stresses, and withstand post-differentiation challenges, stem cells require elevated protein synthesis and consequently augmented proteostasis. Stem cells exhibit source-specific proteostasis traits, making it imperative to study them individually from different sources. These studies have implications for understanding stem cell biology and exploitation in the augmentation of therapeutic applications. Here, we aim to identify the primary determinants of proteotoxic stress response in PDSCs. We generated heat-induced dose-responsive proteotoxic stress models of three stem cell types: placental origin cells, the placenta-derived mesenchymal stem cells (pMSCs), maternal origin cells, the decidua parietalis mesenchymal stem cells (DPMSCs), and the maternal–fetal interface cells, decidua basalis mesenchymal stem cells (DBMSCs), and measured stress induction through biochemical and cell proliferation assays. RT-PCR array analysis of 84 genes involved in protein folding and protein quality control led to the identification of Hsp70 members HSPA1A and HSPA1B as the prominent ones among 17 significantly expressed genes and with further analysis at the protein level through Western blotting. A kinetic analysis of HSPA1A and HSPA1B gene and protein expression allowed a time series evaluation of stress response. As identified by protein expression, an active stress response is in play even at 24 h. More prominent differences in expression between the two homologs are detected at the translational level, alluding to a potential higher requirement for HSPA1B during proteotoxic stress response in PDSCs.

Published
2022
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4. Transcriptomic and Proteomic Analysis Reveals the Potential Role of RBMS1 in Adipogenesis and Adipocyte Metabolism

Author

Ghida Dairi, Saeed Al Mahri, Hicham Benabdelkamel, Assim A. Alfadda, Abdulrahman A. Alswaji, Mamoon Rashid, Shuja Shafi Malik, Jahangir Iqbal, Rizwan Ali, Maria Al Ibrahim, Khalid Al-Regaiey, and Sameer Mohammad

Subjects
adipogenesis, RBMS1, RNA-binding proteins, lipid metabolism, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Adipocytes play a critical role in maintaining a healthy systemic metabolism by storing and releasing energy in the form of fat and helping to regulate glucose and lipid levels in the body. Adipogenesis is the process through which pre-adipocytes are differentiated into mature adipocytes. It is a complex process involving various transcription factors and signaling pathways. The dysregulation of adipogenesis has been implicated in the development of obesity and metabolic disorders. Therefore, understanding the mechanisms that regulate adipogenesis and the factors that contribute to its dysregulation may provide insights into the prevention and treatment of these conditions. RNA-binding motif single-stranded interacting protein 1 (RBMS1) is a protein that binds to RNA and plays a critical role in various cellular processes such as alternative splicing, mRNA stability, and translation. RBMS1 polymorphism has been shown to be associated with obesity and type 2 diabetes, but the role of RBMS1 in adipose metabolism and adipogenesis is not known. We show that RBMS1 is highly expressed during the early phase of the differentiation of the murine adipocyte cell line 3T3-L1 and is significantly upregulated in the adipose tissue depots and adipocytes of high-fat-fed mice, implying a possible role in adipogenesis and adipose metabolism. Knockdown of RBMS1 in pre-adipocytes impacted the differentiation process and reduced the expression of some of the key adipogenic markers. Transcriptomic and proteomic analysis indicated that RBMS1 depletion affected the expression of several genes involved in major metabolic processes, including carbohydrate and lipid metabolism. Our findings imply that RBMS1 plays an important role in adipocyte metabolism and may offer novel therapeutic opportunity for metabolic disorders such as obesity and type 2 diabetes.

Published
2023
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5. Profiling the Hsp70 Chaperone Network in Heat-Induced Proteotoxic Stress Models of Human Neurons

Author

Bothina Mohammed Alharbi, Tahani H. Albinhassan, Razan Ali Alzahrani, Abderrezak Bouchama, Sameer Mohammad, Awatif Abdulaziz Alomari, May Nasser Bin-Jumah, Entissar S. AlSuhaibani, and Shuja Shafi Malik

Subjects
proteostasis, heat shock, chaperones, Hsp70 proteins, stress response, neurons, Biology (General), QH301-705.5
Abstract

Heat stroke is among the most hazardous hyperthermia-related illnesses and an emerging threat to humans from climate change. Acute brain injury and long-lasting brain damage are the hallmarks of this condition. Hyperthermic neurological manifestations are remarkable for their damage correlation with stress amplitude and long-term persistence. Hyperthermia-induced protein unfolding, and nonspecific aggregation accumulation have neurotoxic effects and contribute to the pathogenesis of brain damage in heat stroke. Therefore, we generated heat-induced, dose-responsive extreme and mild proteotoxic stress models in medulloblastoma [Daoy] and neuroblastoma [SH-SY5Y] and differentiated SH-SY5Y neuronal cells. We show that heat-induced protein aggregation is associated with reduced cell proliferation and viability. Higher protein aggregation in differentiated neurons than in neuroblastoma precursors suggests a differential neuronal vulnerability to heat. We characterized the neuronal heat shock response through RT-PCR array analysis of eighty-four genes involved in protein folding and protein quality control (PQC). We identify seventeen significantly expressed genes, five of which are Hsp70 chaperones, and four of their known complementing function proteins. Protein expression analysis determined the individual differential contribution of the five Hsp70 chaperones to the proteotoxic stress response and the significance of only two members under mild conditions. The co-expression analysis reveals significantly high co-expression between the Hsp70 chaperones and their interacting partners. The findings of this study lend support to the hypothesis that hyperthermia-induced proteotoxicity may underlie the brain injury of heat stroke. Additionally, this study presents a comprehensive map of the Hsp70 network in these models with potential clinical and translational implications.

Published
2023
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6. Obesity and COVID-19: what makes obese host so vulnerable?

Author

Sameer Mohammad, Rafia Aziz, Saeed Al Mahri, Shuja Shafi Malik, Esraa Haji, Altaf Husain Khan, Tanvir Saleem Khatlani, and Abderrezak Bouchama

Subjects
Coronavirus, Covid-19, Obesity, Innate and adaptive immunity, Inflammation, Insulin resistance, Immunologic diseases. Allergy, RC581-607, Geriatrics, RC952-954.6
Abstract

Abstract The disease (COVID-19) novel coronavirus pandemic has so far infected millions resulting in the death of over a million people as of Oct 2020. More than 90% of those infected with COVID-19 show mild or no symptoms but the rest of the infected cases show severe symptoms resulting in significant mortality. Age has emerged as a major factor to predict the severity of the disease and mortality rates are significantly higher in elderly patients. Besides, patients with underlying conditions like Type 2 diabetes, cardiovascular diseases, hypertension, and cancer have an increased risk of severe disease and death due to COVID-19 infection. Obesity has emerged as a novel risk factor for hospitalization and death due to COVID-19. Several independent studies have observed that people with obesity are at a greater risk of severe disease and death due to COVID-19. Here we review the published data related to obesity and overweight to assess the possible risk and outcome in Covid-19 patients based on their body weight. Besides, we explore how the obese host provides a unique microenvironment for disease pathogenesis, resulting in increased severity of the disease and poor outcome.

Published
2021
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7. Magnetic and slant curves in Kenmotsu manifolds

Author

Pradeep Kumar Pandey and Sameer Mohammad

Subjects
magnetic curves, slant curves, kenmotsu manifold, Mathematics, QA1-939
Abstract

Motivated by the recent studies of the magnetic curves in quasi-Sasakian, Sasakian, and Cosymplectic manifolds, in this article we investigate the magnetic trajectories with respect to contact magnetic fields in Kenmotsu manifolds. Moreover, we study the slant curves, torsion and curvature in Kenmotsu manifolds.

Published
2020

8. Profiling of G-Protein Coupled Receptors in Adipose Tissue and Differentiating Adipocytes Offers a Translational Resource for Obesity/Metabolic Research

Author

Saeed Al Mahri, Meshail Okla, Mamoon Rashid, Shuja Shafi Malik, Jahangir Iqbal, Maria Al Ibrahim, Ghida Dairi, Amer Mahmood, Manikandan Muthurangan, Ahmed Yaqinuddin, and Sameer Mohammad

Subjects
adipose tissue, adipogenesis, G-protein-coupled receptors, thermogenesis, obesity, metabolic syndrome, Cytology, QH573-671
Abstract

G protein-coupled receptors (GPCRs) are expressed essentially on all cells, facilitating cellular responses to external stimuli, and are involved in nearly every biological process. Several members of this family play significant roles in the regulation of adipogenesis and adipose metabolism. However, the expression and functional significance of a vast number of GPCRs in adipose tissue are unknown. We used a high-throughput RT-PCR panel to determine the expression of the entire repertoire of non-sensory GPCRs in mouse white, and brown adipose tissue and assess changes in their expression during adipogenic differentiation of murine adipocyte cell line, 3T3-L1. In addition, the expression of GPCRs in subcutaneous adipose tissues from lean, obese, and diabetic human subjects and in adipocytes isolated from regular chow and high-fat fed mice were evaluated by re-analyzing RNA-sequencing data. We detected a total of 292 and 271 GPCRs in mouse white and brown adipose tissue, respectively. There is a significant overlap in the expression of GPCRs between the two adipose tissue depots, but several GPCRs are specifically expressed in one of the two tissue types. Adipogenic differentiation of 3T3-L1 cells had a profound impact on the expression of several GPCRs. RNA sequencing of subcutaneous adipose from healthy human subjects detected 255 GPCRs and obesity significantly changed the expression of several GPCRs in adipose tissue. High-fat diet had a significant impact on adipocyte GPCR expression that was similar to human obesity. Finally, we report several highly expressed GPCRs with no known role in adipose biology whose expression was significantly altered during adipogenic differentiation, and/or in the diseased human subjects. These GPCRs could play an important role in adipose metabolism and serve as a valuable translational resource for obesity and metabolic research.

Published
2023
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10. Proteomic and Molecular Assessment of the Common Saudi Variant in ACADVL Gene Through Mesenchymal Stem Cells

Author

Ahmad Alfares, Majid Alfadhel, Ahmed Mujamammi, Batoul Alotaibi, Sarah Albahkali, Mohammed Al Balwi, Hicham Benabdelkamel, Afshan Masood, Rizwan Ali, Amani Almuaysib, Saeed Al Mahri, Sameer Mohammad, Ibrahim O. Alanazi, Assim Alfadda, Saleh AlGhamdi, and Bahauddeen M. Alrfaei

Subjects
VLCAD, long-chain fatty acid, mitochondria, mesenchymal stem cells, proteomic, metabolic disorder, Biology (General), QH301-705.5
Abstract

Very-long-chain acyl-coenzyme A dehydrogenase (VLCAD) is a coenzyme encoded by ACADVL that converts very-long-chain fatty acids into energy. This process is disrupted by c.65C > A; p.Ser22∗ mutation. To clarify mechanisms by which this mutation leads to VLCAD deficiency, we evaluated differences in molecular and cellular functions between mesenchymal stem cells with normal and mutant VLCAD. Saudi Arabia have a high incidence of this form of mutation. Stem cells with mutant VLCAD were isolated from skin of two patients. Metabolic activity and proliferation were evaluated. The Same evaluation was repeated on normal stem cells introduced with same mutation by CRISPR. Mitochondrial depiction was done by electron microscope and proteomic analysis was done on patients’ cells. Metabolic activity and proliferation were significantly lower in patients’ cells. Introducing the same mutation into normal stem cells resulted in the same defects. We detected mitochondrial abnormalities by electron microscopy in addition to poor wound healing and migration processes in mutant cells. Furthermore, in a proteomic analysis, we identified several upregulated or downregulated proteins related to hypoglycemia, liver disorder, and cardiac and muscle involvement. We concluded experimental assays of mutant ACADVL (c.65C > A; p.Ser22∗) contribute to severe neonatal disorders with hypoglycemia, liver disorder, and cardiac and muscle involvement.

Published
2020
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11. Free Fatty Acid Receptors (FFARs) in Adipose: Physiological Role and Therapeutic Outlook

Author

Saeed Al Mahri, Shuja Shafi Malik, Maria Al Ibrahim, Esraa Haji, Ghida Dairi, and Sameer Mohammad

Subjects
adipose tissue, G-protein-coupled receptors, free fatty acid receptors, thermogenesis, adipogenesis, Cytology, QH573-671
Abstract

Fatty acids (FFAs) are important biological molecules that serve as a major energy source and are key components of biological membranes. In addition, FFAs play important roles in metabolic regulation and contribute to the development and progression of metabolic disorders like diabetes. Recent studies have shown that FFAs can act as important ligands of G-protein-coupled receptors (GPCRs) on the surface of cells and impact key physiological processes. Free fatty acid-activated receptors include FFAR1 (GPR40), FFAR2 (GPR43), FFAR3 (GPR41), and FFAR4 (GPR120). FFAR2 and FFAR3 are activated by short-chain fatty acids like acetate, propionate, and butyrate, whereas FFAR1 and FFAR4 are activated by medium- and long-chain fatty acids like palmitate, oleate, linoleate, and others. FFARs have attracted considerable attention over the last few years and have become attractive pharmacological targets in the treatment of type 2 diabetes and metabolic syndrome. Several lines of evidence point to their importance in the regulation of whole-body metabolic homeostasis including adipose metabolism. Here, we summarize our current understanding of the physiological functions of FFAR isoforms in adipose biology and explore the prospect of FFAR-based therapies to treat patients with obesity and Type 2 diabetes.

Published
2022
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12. Functional Characterization of the Obesity-Linked Variant of the β3-Adrenergic Receptor

Author

Esraa Haji, Saeed Al Mahri, Yumna Aloraij, Shuja Shafi Malik, and Sameer Mohammad

Subjects
G-protein coupled receptors, beta-3-adrenergic receptor, receptor desensitization, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Adrenergic receptor β3 (ADRβ3) is a member of the rhodopsin-like G protein-coupled receptor family. The binding of the ligand to ADRβ3 activates adenylate cyclase and increases cAMP in the cells. ADRβ3 is highly expressed in white and brown adipocytes and controls key regulatory pathways of lipid metabolism. Trp64Arg (W64R) polymorphism in the ADRβ3 is associated with the early development of type 2 diabetes mellitus, lower resting metabolic rate, abdominal obesity, and insulin resistance. It is unclear how the substitution of W64R affects the functioning of ADRβ3. This study was initiated to functionally characterize this obesity-linked variant of ADRβ3. We evaluated in detail the expression, subcellular distribution, and post-activation behavior of the WT and W64R ADRβ3 using single cell quantitative fluorescence microscopy. When expressed in HEK 293 cells, ADRβ3 shows a typical distribution displayed by other GPCRs with a predominant localization at the cell surface. Unlike adrenergic receptor β2 (ADRβ2), agonist-induced desensitization of ADRβ3 does not involve loss of cell surface expression. WT and W64R variant of ADRβ3 displayed comparable biochemical properties, and there was no significant impact of the substitution of tryptophan with arginine on the expression, cellular distribution, signaling, and post-activation behavior of ADRβ3. The obesity-linked W64R variant of ADRβ3 is indistinguishable from the WT ADRβ3 in terms of expression, cellular distribution, signaling, and post-activation behavior.

Published
2021
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13. SARS-CoV-2 ORF8 and SARS-CoV ORF8ab: Genomic Divergence and Functional Convergence

Author

Sameer Mohammad, Abderrezak Bouchama, Bothina Mohammad Alharbi, Mamoon Rashid, Tanveer Saleem Khatlani, Nusaibah S. Gaber, and Shuja Shafi Malik

Subjects
COVID-19, SARS-CoV-2, SARS-CoV, accessory protein, ORF8, ORF8ab, Medicine
Abstract

The COVID-19 pandemic, in the first seven months, has led to more than 15 million confirmed infected cases and 600,000 deaths. SARS-CoV-2, the causative agent for COVID-19, has proved to be a great challenge for its ability to spread in asymptomatic stages and the diverse disease spectrum it has generated. This has created a challenge of unimaginable magnitude, not only affecting human health and life but also potentially generating a long-lasting socioeconomic impact. Both medical sciences and biomedical research have also been challenged, consequently leading to a large number of clinical trials and vaccine initiatives. While known proteins of pathobiological importance are targets for these therapeutic approaches, it is imperative to explore other factors of viral significance. Accessory proteins are one such trait that have diverse roles in coronavirus pathobiology. Here, we analyze certain genomic characteristics of SARS-CoV-2 accessory protein ORF8 and predict its protein features. We have further reviewed current available literature regarding its function and comparatively evaluated these and other features of ORF8 and ORF8ab, its homolog from SARS-CoV. Because coronaviruses have been infecting humans repeatedly and might continue to do so, we therefore expect this study to aid in the development of holistic understanding of these proteins. Despite low nucleotide and protein identity and differentiating genome level characteristics, there appears to be significant structural integrity and functional proximity between these proteins pointing towards their high significance. There is further need for comprehensive genomics and structural-functional studies to lead towards definitive conclusions regarding their criticality and that can eventually define their relevance to therapeutics development.

Published
2020
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14. Modulation of ATP8B1 Gene Expression in Colorectal Cancer Cells Suggest its Role as a Tumor Suppressor

Author

Saleh Althenayyan, Dalal Aldeghaither, Esraa Hawsa, Mohammed H AlMuhanna, Mohammad Azhar Aziz, Jahangir Iqbal, Amal AlGhamdi, and Sameer Mohammad

Subjects
Cancer Research, Tumor suppressor gene, Colorectal cancer, Gene Expression, law.invention, law, Cell Movement, Cell Line, Tumor, Gene expression, Drug Discovery, medicine, Humans, biochemistry, Genes, Tumor Suppressor, RNA, Small Interfering, Lipid Transport, Ion transporter, Cell Proliferation, Adenosine Triphosphatases, Pharmacology, Chemistry, Flippase, medicine.disease, digestive system diseases, Gene Expression Regulation, Neoplastic, Oncology, Cancer research, Suppressor, Colorectal Neoplasms
Abstract

Aim: The study aims to understand the role of tumor suppressor genes in colorectal cancer initiation and progression. Background: Sporadic colorectal cancer (CRC) develops through distinct molecular events. Loss of the 18q chromosome is a conspicuous event in the progression of adenoma to carcinoma. There is limited information regarding the molecular effectors of this event. Earlier, we had reported ATP8B1 as a novel gene associated with CRC. ATP8B1 belongs to the family of P-type ATPases (P4 ATPase) that primarily function to facilitate the translocation of phospholipids. Objective: In this study, we attempt to implicate the ATP8B1 gene located on chromosome 18q as a tumor suppressor gene. Methods: Cells culture, Patient data analysis, Generation of stable ATP8B1 overexpressing SW480 cell line, Preparation of viral particles, Cell Transduction, Generation of stable ATP8B1 knockdown HT29 cell line with CRISPR/Cas9, Generation of stable ATP8B1 knockdown HT29 cell line with shRNA, Quantification of ATP8B1 gene expression, Real-time cell proliferation and migration assays, Cell proliferation assay, Cell migration assay, Protein isolation and western blotting, Endpoint cell viability assay, Uptake and efflux of sphingolipid, Statistical and computational analyses. Results: We studied indigenous patient data and confirmed the reduced expression of ATP8B1 in tumor samples. CRC cell lines were engineered with reduced and enhanced levels of ATP8B1, which provided a tool to study its role in cancer progression. Forced reduction of ATP8B1 expression either by CRISPR/Cas9 or shRNA was associated with increased growth and proliferation of CRC cell line - HT29. In contrast, overexpression of ATP8B1 resulted in reduced growth and proliferation of SW480 cell lines. We generated a network of genes that are downstream of ATP8B1. Further, we provide the predicted effect of modulation of ATP8B1 levels on this network and the possible effect on fatty acid metabolism-related genes. Conclusion: Tumor suppressor gene (ATP8B1) located on chromosome 18q could be responsible in the progression of colorectal cancer. Knocking down of this gene causes an increased rate of cell proliferation and reduced cell death, suggesting its role as a tumor suppressor. Increasing the expression of this gene in colorectal cancer cells slowed down their growth and increased cell death. These evidences suggest the role of ATP8B1 as a tumor suppressor gene.

Published
2022

17. Design and Construction of a Voice Control Automation System

Author

Dontha, Mahalsa Sai, Srinivas, Maddala, and Sameer, Mohammad

Subjects
Android Smartphone, Bluetooth Module, Microcontroller, Arduino Uno Microcontroller, Voice Control Automation, Relays
Abstract

Over the past few decades, home automation systems have become increasingly popular because they improve comfort and quality of life. An overview of existing and developing home automation systems is covered in this paper. The main benefit of an automated system is that it lessens stress and human error. Using a variety of communication methods, a smart phone application is used to monitor and control the home appliances. In order to assist users in making an informed choice regarding the technology they want to use to create home automation systems, this study compares the features of various wireless communication technologies, including ZigBee, Wi-Fi, Bluetooth, EnOcean, and GSM. Every person should now own a mobile smartphone thanks to technological advancements that have made this easier and more important. An Arduino Uno microcontroller, which is part of the control circuit, is used to translate voice commands from an Android smartphone running the "AMR voice" app. The control circuit is made up of an Arduino Uno microcontroller, which interprets voice commands from an Android smartphone running the "AMR voice" app. The Bluetooth Module shares signal data after establishing a wireless connection between the microcontroller and the smartphone, while the relay manages device switching. In addition, a survey of various home automation systems is covered in this research project, along with a discussion of their benefits and drawbacks.

Published
2022

18. Obesity and COVID-19: what makes obese host so vulnerable?

Author

Saeed Al Mahri, Rafia Aziz, Sameer Mohammad, Abderrezak Bouchama, Altaf Khan, Tanvir Khatlani, Esraa Haji, and Shuja Shafi Malik

Subjects
lcsh:Immunologic diseases. Allergy, Aging, medicine.medical_specialty, Immunology, 030209 endocrinology & metabolism, Review, Type 2 diabetes, Clinical nutrition, Disease, macromolecular substances, Overweight, lcsh:Geriatrics, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, 030212 general & internal medicine, Obesity, Risk factor, Inflammation, business.industry, Mortality rate, Cancer, Insulin resistance, medicine.disease, Coronavirus, lcsh:RC952-954.6, Innate and adaptive immunity, medicine.symptom, business, Covid-19, lcsh:RC581-607
Abstract

The disease (COVID-19) novel coronavirus pandemic has so far infected millions resulting in the death of over a million people as of Oct 2020. More than 90% of those infected with COVID-19 show mild or no symptoms but the rest of the infected cases show severe symptoms resulting in significant mortality. Age has emerged as a major factor to predict the severity of the disease and mortality rates are significantly higher in elderly patients. Besides, patients with underlying conditions like Type 2 diabetes, cardiovascular diseases, hypertension, and cancer have an increased risk of severe disease and death due to COVID-19 infection. Obesity has emerged as a novel risk factor for hospitalization and death due to COVID-19. Several independent studies have observed that people with obesity are at a greater risk of severe disease and death due to COVID-19. Here we review the published data related to obesity and overweight to assess the possible risk and outcome in Covid-19 patients based on their body weight. Besides, we explore how the obese host provides a unique microenvironment for disease pathogenesis, resulting in increased severity of the disease and poor outcome.

Published
2021

19. HSPA1B is the Dominant Partner in the HSPA1A/HSPA1B Mediated Proteotoxic Stress Response in Placenta-Derived Stem Cells

Author

Bothina Mohammed Alharbi, Aisha Bugshan, Azhaar Almozel, Reem Alenzi, Abderrezak Bouchama, Tanvir Khatlani, Sameer Mohammad, and Shuja Shafi Malik

Subjects
general_medical_research
Abstract

Placenta-derived stem cells (PDSCs) offer the advantages of possessing mesenchymal and embryonic traits, broad differentiation potential, large-scale availability, and no ethical constraints in their utilization in therapeutic applications. Elevated protein synthesis and consequently enhanced protein maintenance networks become necessary both due to the requirement to maintain stemness and respond to different stresses. This study aimed to identify the primary determinants of proteotoxic stress response in PDSCs. We generated heat-induced dose-responsive proteotoxic stress models of three stem cell types DBMSCs, DPMSCs, and pMSCs, and measured stress induction through biochemical and cell proliferation assays. RT-PCR array analysis of 84 genes involved in protein folding and protein quality control led to the identification of Hsp70 isoforms HSPA1A and HSPA1B as the prominent ones among 17 significantly expressed genes and with further analysis at the protein level through western blotting. A 24-hours’ time series analysis of stress-response allowed a detailed kinetic analysis of HSPA1A and HSPA1B gene and protein expression. More prominent differences between the two Hsp70 isoforms were detected at the translational level eluding to a potential higher requirement for HSPA1B during proteotoxic stress in PDSCs. To conclude, consideration should be given to the manipulation of definitely characterized chaperones at their expression or functional levels when utilizing PDSCs in therapeutic and regenerative applications.

Published
2022

21. Efficiency of Fabric Repellency to Mosquitoes

Author

Rasha Sameer Mohammad Mujallid

Subjects
Pharmacology, Toxicology, Textile industry, Health awareness, Textile, business.industry, business, Mathematics
Abstract

Textile finishing sectors had a great development, and health awareness is increasing, the finishing of textile to repel insect is very important and urgent to prevent transmission of mosquitoes diseases. Therefore, the researcher found that the Neem tree can be used in textile finishing as repel mosquitoes, by using the solution extracted from green and dry Neem leaf for future applications, in apparel industry, tents, curtains and furnishings. This research used the experimental descriptive method, which describes the phenomenon, summarizes data and information to analyze it for conclusion and recommendation. The researcher surveyed data and information about the neem tree and used it for textile finishing as repel insects, some properties of textile were tested to evaluate the effect of solution extracted from green and dry leaf of Neem tree on the performance of textile properties and repel insects. It was found that the fabric finished by using green Neem leaf, has the ability to repel 80% of mosquitoes, and the fabric finished by using dry Neem leaf, has the ability to repel 60% of mosquitoes, and the finishing of fabric with the extracted solution green and dry Neem leaf has a significant effect on the fabric properties.

Published
2019

22. Habitat for Humanity: Florida’s Procurement Processes

Author

Sameer Mohammad

Subjects
Procurement, Geography, Habitat, business.industry, Humanity, Environmental resource management, business, GeneralLiterature_MISCELLANEOUS
Abstract

Habitat for Humanity (HFH) Florida is best known for their coordination of helping hand for the building of affordable homes in communities all across the world. Although effective at their mission, the organization had been procuring supplies the same way for decades, with no major analyses or innovations to their processes. HFH Florida’s CEO, Barbara Inman, decided to reach out to the University of South Florida’s (USF) Council for Supply Chain Management Professionals (CSCMP) for an analysis of their current decentralized procurement methodology. The group was also tasked with providing recommendations to the way HFH procures home-building supplies. USF CSCMP gathered and analyzed available purchasing data from 11 HFH locations across Florida, using Tableau as a statistical visualization tool for HFH’s CEO.

Published
2019

24. Task-based Instruction and English Speaking Skill of Fluency in Jordanian Context

Author

Ali Al-Hirsh, Sameer Mohammad and Ali Al-Hirsh, Sameer Mohammad

Abstract

This study investigates the effect of a Task-Based Instructional (TBI) program on Al al-Bayt University students' English speaking skill of fluency. A sample of 64 students was divided into three groups: a pilot study group, a control group and an experimental group. The experimental group was taught for eight weeks using a suggested TBI speaking program. The control group was taught for eight weeks using the teacher's book. To assess students' speaking skill of fluency, a speaking pre-post test was designed and a scoring scale was adapted. Students' responses were recorded on audio files. They were scored by two different raters and correlation coefficient was calculated. The findings of the study revealed that there were statistically significant differences at (α=0.05) in the mean scores of the fluency post test between the experimental group students and the control group students in favor of the experimental group students due to using the TBI program. Key words: speaking fluency, English speaking skills, task-based instruction, instructional program DOI: 10.7176/JEP/12-9-08 Publication date:March 31st 2021

Published
2021

26. STRENGTH AND DURABILITY PERFORMANCE OF FLY ASH BASED GEOPOLYMER CONCRETE USING NANO SILICA

Author

Sameer Vyas, Neetu Singh, Shilpa Pal, and Sameer Mohammad

Subjects
Cement, Materials science, Geopolymer, Fly Ash, Nano-Silica, Durability, Compressive Strength, Aggressive Conditions, Metallurgy, 0211 other engineering and technologies, 02 engineering and technology, 021001 nanoscience & nanotechnology, Environmentally friendly, law.invention, Portland cement, Compressive strength, law, Fly ash, 021105 building & construction, Nano, 0210 nano-technology
Abstract

With the increasing infrastructure development across the globe, the demand of cement production increases day by day. However, the production of cement is associated with the emission of large amount of CO2 causing global warming. Scientist and engineers are in search of a green eco friendly alternative for concrete production. Geopolymers are rapidly emerging as an alternative to Portland cement as the binder of structural concrete. In this respect, the fly ash based geopolymers shows considerable prospect for application in concrete industry as an alternative binder to the Portland cement. Development of geopolymer concrete using class F fly ash brings many advantages like; enhancing workability, durability, better strength as well as lowering the price. There is not only a reduction in the greenhouse footprint but, also considerable increase in strength and resistivity to adverse conditions. In order to enhance the performance of Geopolymer concrete, the use of Nano-silica is found to be suitable and practiced by researchers. Use of Nano materials as fillers in the concrete matrix has proven effective in increasing mechanical and durability properties. This research is based on performance evaluation of geopolymer concrete using different percentage of Nano-silica.. It was observed that Geopolymer concrete with Nano-silica ( GPC-N) shows good compressive strength as well as durability under aggressive conditions. The materials performance were also investigated using X-Ray Diffraction technique. (XRD). Results show that the presence of nano silica enhanced the performance of Geopolymer concrete with respect to strength and durability purposes.

Published
2020
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27. Free fatty acids receptors 2 and 3 control cell proliferation by regulating cellular glucose uptake

Author

Monira Al Aujan, Mohammad Azhar Aziz, Maaged A. Akiel, Saeed Al Mahri, Amal Al Ghamdi, and Sameer Mohammad

Subjects
Colorectal cancer, Cell growth, business.industry, Free fatty acids receptor 3, Glucose uptake, Free fatty acids receptor 2, Gastroenterology, Basic Study, medicine.disease, Control cell, Cell biology, 03 medical and health sciences, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Glucose transporter 1, medicine, 030211 gastroenterology & hepatology, Receptor, business, Cell proliferation
Abstract

BACKGROUND Colorectal cancer (CRC) is a worldwide problem, which has been associated with changes in diet and lifestyle pattern. As a result of colonic fermentation of dietary fibres, short chain free fatty acids are generated which activate free fatty acid receptors (FFAR) 2 and 3. FFAR2 and FFAR3 genes are abundantly expressed in colonic epithelium and play an important role in the metabolic homeostasis of colonic epithelial cells. Earlier studies point to the involvement of FFAR2 in colorectal carcinogenesis. AIM To understand the role of short chain FFARs in CRC. METHODS Transcriptome analysis console software was used to analyse microarray data from CRC patients and cell lines. We employed short-hairpin RNA mediated down regulation of FFAR2 and FFAR3 genes, which was validated using quantitative real time polymerase chain reaction. Assays for glucose uptake and cyclic adenosine monophosphate (cAMP) generation was done along with immunofluorescence studies to study the effects of FFAR2/FFAR3 knockdown. For measuring cell proliferation, we employed real time electrical impedance-based assay available from xCELLigence. RESULTS Microarray data analysis of CRC patient samples showed a significant down regulation of FFAR2 gene expression. This prompted us to study the FFAR2 in CRC. Since, FFAR3 shares significant structural and functional homology with FFAR2, we knocked down both these receptors in CRC cell line HCT 116. These modified cell lines exhibited higher proliferation rate and were found to have increased glucose uptake as well as increased level of glucose transporter 1. Since, FFAR2 and FFAR3 signal through G protein subunit (Gαi), knockdown of these receptors was associated with increased cAMP. Inhibition of protein kinase A (PKA) did not alter the growth and proliferation of these cells indicating a mechanism independent of cAMP/PKA pathway. CONCLUSION Our results suggest role of FFAR2/FFAR3 genes in increased proliferation of colon cancer cells via enhanced glucose uptake and exclude the role of PKA mediated cAMP signalling. Alternate pathways could be involved that would ultimately result in increased cell proliferation as a result of down regulated FFAR2/FFAR3 genes. This study paves the way to understand the mechanism of action of short chain FFARs in CRC.

Published
2019

30. Towards personalized medicine of colorectal cancer

Author

Bandar Al Knawy, Mohammad Azhar Aziz, Sameer Mohammad, Ayman M. Saleh, and Zeyad Yousef

Subjects
0301 basic medicine, Emerging technologies, Colorectal cancer, Early detection, Disease, Bioinformatics, 03 medical and health sciences, 0302 clinical medicine, Humans, Medicine, Precision Medicine, neoplasms, business.industry, Genomics, Hematology, Omics, medicine.disease, Data science, digestive system diseases, ErbB Receptors, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Personalized medicine, Colorectal Neoplasms, business
Abstract

Efforts in colorectal cancer (CRC) research aim to improve early detection and treatment for metastatic stages which could translate into better prognosis of this disease. One of the major challenges that hinder these efforts is the heterogeneous nature of CRC and involvement of diverse molecular pathways. New large-scale ‘omics’ technologies are making it possible to generate, analyze and interpret biological data from molecular determinants of CRC. The developments of sophisticated computational analyses would allow information from different omics platforms to be integrated, thus providing new insights into the biology of CRC. Together, these technological advances and an improved mechanistic understanding might allow CRC to be clinically managed at the level of the individual patient. This review provides an account of the current challenges in CRC management and an insight into how new technologies could allow the development of personalized medicine for CRC.

Published
2017

31. Proteomic and Molecular Assessment of the Common Saudi Variant in

Author

Ahmad, Alfares, Majid, Alfadhel, Ahmed, Mujamammi, Batoul, Alotaibi, Sarah, Albahkali, Mohammed, Al Balwi, Hicham, Benabdelkamel, Afshan, Masood, Rizwan, Ali, Amani, Almuaysib, Saeed, Al Mahri, Sameer, Mohammad, Ibrahim O, Alanazi, Assim, Alfadda, Saleh, AlGhamdi, and Bahauddeen M, Alrfaei

Subjects
mitochondria, metabolic disorder, Cell and Developmental Biology, mesenchymal stem cells, long-chain fatty acid, VLCAD, proteomic, Original Research
Abstract

Very-long-chain acyl-coenzyme A dehydrogenase (VLCAD) is a coenzyme encoded by ACADVL that converts very-long-chain fatty acids into energy. This process is disrupted by c.65C > A; p.Ser22∗ mutation. To clarify mechanisms by which this mutation leads to VLCAD deficiency, we evaluated differences in molecular and cellular functions between mesenchymal stem cells with normal and mutant VLCAD. Saudi Arabia have a high incidence of this form of mutation. Stem cells with mutant VLCAD were isolated from skin of two patients. Metabolic activity and proliferation were evaluated. The Same evaluation was repeated on normal stem cells introduced with same mutation by CRISPR. Mitochondrial depiction was done by electron microscope and proteomic analysis was done on patients’ cells. Metabolic activity and proliferation were significantly lower in patients’ cells. Introducing the same mutation into normal stem cells resulted in the same defects. We detected mitochondrial abnormalities by electron microscopy in addition to poor wound healing and migration processes in mutant cells. Furthermore, in a proteomic analysis, we identified several upregulated or downregulated proteins related to hypoglycemia, liver disorder, and cardiac and muscle involvement. We concluded experimental assays of mutant ACADVL (c.65C > A; p.Ser22∗) contribute to severe neonatal disorders with hypoglycemia, liver disorder, and cardiac and muscle involvement.

Published
2019

32. Free Fatty acids receptors (FFAR2 and FFAR3) control cell proliferation by regulating cellular glucose uptake

Author

Mohammad Aziz, Saeed Al Mahri, Amal Alghamdi, Maaged AlAkiel, Monira Al Aujan, and Sameer Mohammad

Abstract

Background Colorectal cancer is a worldwide problem which has been associated with changes in diet and lifestyle pattern. As a result of colonic fermentation of dietary fibres, short chain free fatty acids are generated which activate Free Fatty Acid Receptors 2 and 3 (FFAR2 and FFAR3). FFAR2 and FFAR3 genes are abundantly expressed in colonic epithelium and play an important role in the metabolic homeostasis of colonic epithelial cells. Earlier studies point to the involvement of FFAR2 in colorectal carcinogenesis. Methods Transcriptome analysis console was used to analyse microarray data from patients and cell lines. We employed shRNA mediated down regulation of FFAR2 and FFAR3 genes which was assessed using qRT-PCR. Assays for glucose uptake and cAMP generation was done along with immunofluorescence studies. For measuring cell proliferation, we employed real time electrical impedance based assay available from xCelligence. Results Microarray data analysis of colorectal cancer patient samples showed a significant down regulation of FFAR2 gene expression. This prompted us to study the FFAR2 in colorectal cancer. Since, FFAR3 shares significant structural and functional homology with FFAR2, we knocked down both these receptors in colorectal cancer cell line HCT 116. These modified cell lines exhibited higher proliferation rate and were found to have increased glucose uptake as well as increased level of GLUT1. Since, FFAR2 and FFAR3 signal through G protein subunit (Gαi), knockdown of these receptors was associated with increased cAMP. Inhibition of PKA did not alter the growth and proliferation of these cells indicating a mechanism independent of cAMP/PKA pathway. Conclusion: Our results suggest role of FFAR2/FFAR3 genes in increased proliferation of colon cancer cells via enhanced glucose uptake and exclude the role of protein kinase A mediated cAMP signalling. Alternate pathways could be involved that would ultimately result in increased cell proliferation as a result of down regulated FFAR2/FFAR3 genes. This study paves the way to understand the mechanism of action of short chain free fatty acid receptors in colorectal cancer.

Published
2019

33. A viral vector based in vivo model of tauopathy to explore therapeutic strategies against tau pathology

Author

Nazeeruddin, Sameer Mohammad Khaleel, Schneider, Bernard, and Aebischer, Patrick

Subjects
Viral vectors, Tauopathy, Misfolding inhibitor, Dementia, Tau, Alzheimer’s Disease, Vaccine, Mouse model
Abstract

Tauopathies are neurodegenerative diseases whose common pathological feature is the intraneuronal accumulation of tau aggregates. Tau protein has various roles in the neuron, among which stabilization of microtubules (MT), regulation of synaptic activity or axonal transport. Subsequently, tau pathology exerts toxicity through mechanisms that likely involve the loss of normal function or the gain of toxic functions. In tauopathies, tau undergoes post-translational modifications (PTM), which are thought to promote the detachment from the MT, change its subcellular localization, and induce conformational changes that favor its assembly with other tau monomers, forming oligomers and fibrils. Furthermore, both normal and pathological forms of tau can be transferred from neuron to neuron. This process may have an important role in disease progression, by propagating the pathology along synaptically connected brain regions, which reflects the evolution of the symptoms. Therefore, the aggregation of tau protein and its propagation are promising targets for potential treatments. In the present thesis, our objective was to assess the efficacy of two treatments using a mouse model of tauopathy based on local overexpression of the 4R0N human tau (hTau) wild-type (WT) induced by intracerebral injection of an adeno-associated viral (AAV) vector. In the first part of the thesis, we overexpressed tau in the entorhinal cortex (EC) of WT mice to induce pathology and assess the effects of aggregation inhibitor compounds orally administered. Although we did not observe any effect on markers of tau aggregation, likely because the induced pathology was still at an early stage, the treatment was found to enhance phosphorylation of the Ser202/Thr205 residues in the EC and ipsilateral hippocampus (HPC). Additionally, we measured an increase in the density of microglial cells in the HPC, and significantly decreased levels of total hTau in the cerebrospinal fluid of the treated mice. These findings suggest a potential positive effect of this treatment on the clearance of hTau. In the second part of the thesis, we unilaterally overexpressed hTau in the mouse CA3 HPC and used the connectivity between both hemispheres to quantify the propagation of tau from neuron-to-neuron to the contralateral HPC. We found neurons labelled for hTau in the contralateral HPC, the number of which was increased in 5xFAD mice carrying the amyloid pathology. Next, to induce an antibody response against pathological tau, we subcutaneously injected a vaccine against the phospho-Ser396/404 tau epitope. The vaccine induced a potent antibody response in WT mice, but antibody titers remained low in the 5xFAD mice. In the treated WT mice, immunohistochemistry showed a decreased PHF-1 immunoreactivity in the HPC, indicating that the generated antibodies indeed recognized the phospho-Ser396/404 epitope. Remarkably, the vaccine decreased the number of neurons positive for hTau in the contralateral HPC, suggesting an effect of immunotherapy on tau propagation. Furthermore, the vaccine also showed potential neuroprotective effects, by decreasing the level of neurodegeneration in the dentate gyrus of treated mice as a function of the anti-phospho-tau antibody titer. In this work, using adapted AAV8-based models of local tau overexpression in the mouse brain, we reveal the effects of two treatments on different aspects of tau pathology related to the progression of the symptoms in tauopathies.

Published
2019
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34. TXNIP in Metabolic Regulation: Physiological Role and Therapeutic Outlook

Author

Naif Mohammad Alhawiti, Sameer Mohammad, Shuja Shafi Malik, Mohammad Azhar Aziz, and Saeed Al Mahri

Subjects
0301 basic medicine, medicine.medical_specialty, Thioredoxin-Interacting Protein, Glucose uptake, thioredoxin system, Clinical Biochemistry, Adipose tissue, Biology, Article, 03 medical and health sciences, Diabetes mellitus, Insulin resistance, insulin resistance, Internal medicine, Drug Discovery, medicine, Humans, oxidative stress, Pharmacology, thioredoxin-interacting protein, Adipogenesis, Lipid metabolism, metabolic homoeostasis, medicine.disease, Cell biology, Glucose, Treatment Outcome, 030104 developmental biology, Endocrinology, Liver, Molecular Medicine, pancreatic β-cell dysfunction, Thioredoxin, Carrier Proteins, TXNIP, HeLa Cells
Abstract

Background & Objective: Thioredoxin-interacting protein (TXNIP) also known as thioredoxin binding protein-2 is a ubiquitously expressed protein that interacts and negatively regulates expression and function of Thioredoxin (TXN). Over the last few years, TXNIP has attracted considerable attention due to its wide-ranging functions impacting several aspects of energy metabolism. TXNIP acts as an important regulator of glucose and lipid metabolism through pleiotropic actions including regulation of β-cell function, hepatic glucose production, peripheral glucose uptake, adipogenesis, and substrate utilization. Overexpression of TXNIP in animal models has been shown to induce apoptosis of pancreatic β-cells, reduce insulin sensitivity in peripheral tissues like skeletal muscle and adipose, and decrease energy expenditure. On the contrary, TXNIP deficient animals are protected from diet induced insulin resistance and type 2 diabetes. Summary: Consequently, targeting TXNIP is thought to offer novel therapeutic opportunity and TXNIP inhibitors have the potential to become a powerful therapeutic tool for the treatment of diabetes mellitus. Here we summarize the current state of our understanding of TXNIP biology, highlight its role in metabolic regulation and raise critical questions that could help future research to exploit TXNIP as a therapeutic target.

Published
2017

35. A Naturally Occurring GIP Receptor Variant Undergoes Enhanced Agonist-Induced Desensitization, Which Impairs GIP Control of Adipose Insulin Sensitivity

Author

Jennifer Wen, Rajesh T. Patel, Joanne Bruno, Muhammad Siyab Panhwar, Timothy E. McGraw, and Sameer Mohammad

Subjects
Agonist, endocrine system, medicine.medical_specialty, medicine.drug_class, media_common.quotation_subject, Golgi Apparatus, Adipose tissue, Gastric Inhibitory Polypeptide, Biology, Receptors, Gastrointestinal Hormone, Mice, Insulin resistance, Gastric inhibitory polypeptide, Downregulation and upregulation, 3T3-L1 Cells, Internal medicine, Adipocytes, medicine, Animals, Humans, Internalization, Receptor, Molecular Biology, G protein-coupled receptor, media_common, Cell Membrane, Genetic Variation, Articles, Cell Biology, medicine.disease, Protein Transport, HEK293 Cells, Endocrinology, Diabetes Mellitus, Type 2, Gene Expression Regulation, Cardiovascular Diseases, Insulin Resistance, hormones, hormone substitutes, and hormone antagonists
Abstract

Glucose-dependent insulinotropic polypeptide (GIP), an incretin hormone secreted from gastrointestinal K cells in response to food intake, has an important role in the control of whole-body metabolism. GIP signals through activation of the GIP receptor (GIPR), a G-protein-coupled receptor (GPCR). Dysregulation of this pathway has been implicated in the development of metabolic disease. Here we demonstrate that GIPR is constitutively trafficked between the plasma membrane and intracellular compartments of both GIP-stimulated and unstimulated adipocytes. GIP induces a downregulation of plasma membrane GIPR by slowing GIPR recycling without affecting internalization kinetics. This transient reduction in the expression of GIPR in the plasma membrane correlates with desensitization to the effects of GIP. A naturally occurring variant of GIPR (E354Q) associated with an increased incidence of insulin resistance, type 2 diabetes, and cardiovascular disease in humans responds to GIP stimulation with an exaggerated downregulation from the plasma membrane and a delayed recovery of GIP sensitivity following cessation of GIP stimulation. This perturbation in the desensitization-resensitization cycle of the GIPR variant, revealed in studies of cultured adipocytes, may contribute to the link of the E354Q variant to metabolic disease.

Published
2014

36. Abstract 5299: Role of short chain free fatty acid receptors in colorectal cancer

Author

Amal AlGhamdi, Maaged AlAkiel, Sameer Mohammad, Saeed AlMahri, and Mohammad Azhar Aziz

Subjects
chemistry.chemical_classification, Cancer Research, Cell growth, Colorectal cancer, Fatty acid, Cancer, Colorectal adenoma, Biology, Gut flora, medicine.disease, biology.organism_classification, Oncology, chemistry, Free fatty acid receptor 2, medicine, Cancer research, Receptor
Abstract

One of the well established risk factors for colorectal cancer is dietary profile. A well recognized negative association of dietary fiber with colorectal cancer warrants further understanding of the underlying mechanism. Bacterial fermentation of dietary fibre results in formation of short chain free fatty acids in the gut. There are two receptors for these fatty acids one of which has been implicated in colorectal cancer. Free fatty acid receptor 2 has been associated with development of colorectal adenoma in a mouse model. We analyzed the differential expression of FFAR2 gene in colorectal cancer patients. Further, we generated genetically engineered colorectal cancer cell line with reduced level of expression of these receptors. These engineered cells were found to have enhanced rate of cell proliferation. In order to understand the mechanism of increased proliferation, we explored the involevement of glucose uptake and cAMP pathways. While there was an increased level of glucose uptake in engineered cells, there was no evidence of involvement of Protein kinase A mediated cAMP pathway. Further studies are needed to fully establish the connection between dietary fibre, gut microbiota and colorectal cancer. Citation Format: Amal AlGhamdi, Saeed AlMahri, Maaged AlAkiel, Sameer Mohammad, Mohammad Aziz. Role of short chain free fatty acid receptors in colorectal cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 5299.

Published
2019

37. Constitutive Cholesterol-dependent Endocytosis of Melanocortin-4 Receptor (MC4R) Is Essential to Maintain Receptor Responsiveness to α-Melanocyte-stimulating Hormone (α-MSH)

Author

Susana Granell, Lakisha McPike, Giovanna Baldini, Paola Narducci, Brent M. Molden, Sameer Mohammad, Giulia Baldini, and Faith K. McDaniel

Subjects
Threonine, Agonist, medicine.medical_specialty, Endosome, medicine.drug_class, media_common.quotation_subject, Stimulation, Endosomes, Endocytosis, Biochemistry, Clathrin, Receptors, G-Protein-Coupled, Internal medicine, Serine, medicine, Homeostasis, Humans, RNA, Small Interfering, Receptor, Internalization, Molecular Biology, media_common, Dose-Response Relationship, Drug, biology, Cell Membrane, Molecular Bases of Disease, Cell Biology, Cell biology, Cholesterol, HEK293 Cells, Endocrinology, alpha-MSH, Mutation, biology.protein, Receptor, Melanocortin, Type 4, Signal transduction, Signal Transduction
Abstract

Melanocortin-4 receptor (MC4R) is a G-protein-coupled receptor expressed in the hypothalamus where it controls feeding behavior. MC4R cycles constitutively and is internalized at the same rate in the presence or absence of stimulation by the agonist, melanocyte-stimulating hormone (α-MSH). This is different from other G-protein-coupled receptors, such as β(2)-adrenergic receptor (β(2)AR), which internalizes more rapidly in response to agonist stimulation. Here, it is found that in immortalized neuronal Neuro2A cells expressing exogenous receptors, constitutive endocytosis of MC4R and agonist-dependent internalization of β(2)AR were equally sensitive to clathrin depletion. Inhibition of MC4R endocytosis by clathrin depletion decreased the number of receptors at the cell surface that were responsive to the agonist, α-MSH, by 75%. Mild membrane cholesterol depletion also inhibited constitutive endocytosis of MC4R by ∼5-fold, while not affecting recycling of MC4R or agonist-dependent internalization of β(2)AR. Reduced cholesterol did not change the MC4R dose-response curve to α-MSH, but it decreased the amount of cAMP generated per receptor number indicating that a population of MC4R at the cell surface becomes nonfunctional. The loss of MC4R function increased over time (25-50%) and was partially reversed by mutations at putative phosphorylation sites (T312A and S329A). This was reproduced in hypothalamic GT1-7 cells expressing endogenous MC4R. The data indicate that constitutive endocytosis of MC4R is clathrin- and cholesterol-dependent. MC4R endocytosis is required to maintain MC4R responsiveness to α-MSH by constantly eliminating from the plasma membrane a pool of receptors modified at Thr-312 and Ser-329 that have to be cycled to the endosomal compartment to regain function.

Published
2012

38. Gastric Inhibitory Peptide Controls Adipose Insulin Sensitivity via Activation of cAMP-response Element-binding Protein and p110β Isoform of Phosphatidylinositol 3-Kinase

Author

Lavoisier S. Ramos, Timothy E. McGraw, Sameer Mohammad, Lonny R. Levin, Francesco Rubino, and Jochen Buck

Subjects
endocrine system, medicine.medical_specialty, medicine.medical_treatment, Immunoblotting, FOXO1, Gastric Inhibitory Polypeptide, Biology, CREB, digestive system, Biochemistry, Mice, chemistry.chemical_compound, Insulin resistance, Gastric inhibitory polypeptide, 3T3-L1 Cells, Internal medicine, Adipocyte, Adipocytes, Cyclic AMP, medicine, Animals, Immunoprecipitation, Cyclic AMP Response Element-Binding Protein, Protein kinase A, Molecular Biology, Insulin, digestive, oral, and skin physiology, Cell Biology, medicine.disease, Receptor, Insulin, Class Ia Phosphatidylinositol 3-Kinase, Metabolism, Endocrinology, Adipose Tissue, chemistry, biology.protein, Electrophoresis, Polyacrylamide Gel, Insulin Resistance, hormones, hormone substitutes, and hormone antagonists, GLUT4
Abstract

Gastric inhibitory peptide (GIP) is an incretin hormone secreted in response to food intake. The best known function of GIP is to enhance glucose-dependent insulin secretion from pancreatic β-cells. Extra-pancreatic effects of GIP primarily occur in adipose tissues. Here, we demonstrate that GIP increases insulin-dependent translocation of the Glut4 glucose transporter to the plasma membrane and exclusion of FoxO1 transcription factor from the nucleus in adipocytes, establishing that GIP has a general effect on insulin action in adipocytes. Stimulation of adipocytes with GIP alone has no effect on these processes. Using pharmacologic and molecular genetic approaches, we show that the effect of GIP on adipocyte insulin sensitivity requires activation of both the cAMP/protein kinase A/CREB signaling module and p110β phosphoinositol-3' kinase, establishing a novel signal transduction pathway modulating insulin action in adipocytes. This insulin-sensitizing effect is specific for GIP because isoproterenol, which elevates adipocyte cAMP and activates PKA/CREB signaling, does not affect adipocyte insulin sensitivity. The insulin-sensitizing activity points to a more central role for GIP in intestinal regulation of peripheral tissue metabolism, an emerging feature of inter-organ communication in the control of metabolism.

Published
2011

39. Sequestration of Mutated α1-Antitrypsin into Inclusion Bodies Is a Cell-protective Mechanism to Maintain Endoplasmic Reticulum Function

Author

Giovanna Baldini, Brian Storrie, Paola Narducci, Giulia Baldini, Sameer Mohammad, Susana Granell, Vanessa Nicolin, Granell, S, Baldini, G, Mohammad, S, Nicolin, Vanessa, Narducci, Paola, Storrie, B, and Baldini, G.

Subjects
Protein Folding, Carcinoma, Hepatocellular, Time Factors, Calnexin, Cell, Protein Disulfide-Isomerases, Biology, Endoplasmic Reticulum, Inclusion bodies, Mice, Neuroblastoma, Cell Line, Tumor, Phagosomes, medicine, Autophagy, Neurites, Animals, Humans, Protein disulfide-isomerase, Molecular Biology, Secretory pathway, Serpins, Cell Size, Inclusion Bodies, Endoplasmic reticulum, Neuropeptides, Cell Biology, Articles, digestive system diseases, Cell biology, Protein Transport, medicine.anatomical_structure, RER, Cytoprotection, alpha 1-Antitrypsin, Unfolded protein response, Mutant Proteins, Lysosomes, Intracellular, Biomarkers
Abstract

A variant alpha1-antitrypsin with E342K mutation has a high tendency to form intracellular polymers, and it is associated with liver disease. In the hepatocytes of individuals carrying the mutation, alpha1-antitrypsin localizes both to the endoplasmic reticulum (ER) and to membrane-surrounded inclusion bodies (IBs). It is unclear whether the IBs contribute to cell toxicity or whether they are protective to the cell. We found that in hepatoma cells, mutated alpha1-antitrypsin exited the ER and accumulated in IBs that were negative for autophagosomal and lysosomal markers, and contained several ER components, but not calnexin. Mutated alpha1-antitrypsin induced IBs also in neuroendocrine cells, showing that formation of these organelles is not cell type specific. In the presence of IBs, ER function was largely maintained. Increased levels of calnexin, but not of protein disulfide isomerase, inhibited formation of IBs and lead to retention of mutated alpha1-antitrypsin in the ER. In hepatoma cells, shift of mutated alpha1-antitrypsin localization to the ER by calnexin overexpression lead to cell shrinkage, ER stress, and impairment of the secretory pathway at the ER level. We conclude that segregation of mutated alpha1-antitrypsin from the ER to the IBs is a protective cell response to maintain a functional secretory pathway.

Published
2008

40. Constitutive traffic of melanocortin-4 receptor in Neuro2A cells and immortalized hypothalamic neurons

Author

Paola Narducci, Giovanna Baldini, Susana Granell, Sameer Mohammad, Alberto M. Martelli, Giulia Baldini, Mohammad, S, Baldini, Giovanna, Granell, S, Narducci, Paola, MARTELLI A., M, and Baldini, G.

Subjects
Agonist, medicine.drug_class, media_common.quotation_subject, Hypothalamus, Appetite, Gene Expression, Transferrin receptor, Biology, Endocytosis, Biochemistry, Exocytosis, Mice, Cell Line, Tumor, Receptors, Transferrin, Enzyme-linked receptor, medicine, Animals, Humans, Receptor, Internalization, Molecular Biology, Dynamin, media_common, G protein-coupled receptor, Cell Line, Transformed, Neurons, Cell Membrane, Retinoblastoma, Clathrin-Coated Vesicles, Cell Biology, Cell biology, Protein Transport, alpha-MSH, Mutation, Receptor, Melanocortin, Type 4, Energy Metabolism, hormones, hormone substitutes, and hormone antagonists
Abstract

Melanocortin-4 receptor (MC4R) is a G protein-coupled receptor (GPCR) that binds alpha-melanocyte-stimulating hormone (alpha-MSH) and has a central role in the regulation of appetite and energy expenditure. Most GPCRs are endocytosed following binding to the agonist and receptor desensitization. Other GPCRs are internalized and recycled back to the plasma membrane constitutively, in the absence of the agonist. In unstimulated neuroblastoma cells and immortalized hypothalamic neurons, epitopetagged MC4R was localized both at the plasma membrane and in an intracellular compartment. These two pools of receptors were in dynamic equilibrium, with MC4R being rapidly internalized and exocytosed. In the absence of alpha-MSH, a fraction of cell surface MC4R localized together with transferrin receptor and to clathrin-coated pits. Constitutive MC4R internalization was impaired by expression of a dominant negative dynamin mutant. Thus, MC4R is internalized together with transferrin receptor by clathrin-dependent endocytosis. Cell exposure toalpha-MSH reduced the amount of MC4R at the plasma membrane by blocking recycling of a fraction of internalized receptor, rather than by increasing its rate of endocytosis. The data indicate that, in neuronal cells, MC4R recycles constitutively and that alpha-MSH modulates MC4R residency at the plasma membrane by acting at an intracellular sorting step.

Published
2006

41. Obesity-Linked Variants of Melanocortin-4 Receptor Are Misfolded in the Endoplasmic Reticulum and Can Be Rescued to the Cell Surface by a Chemical Chaperone

Author

Ramanagouda Ramanagoudr-Bhojappa, Sameer Mohammad, Giulia Baldini, and Susana Granell

Subjects
Protein Folding, Recombinant Fusion Proteins, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Biology, Endoplasmic Reticulum, Phenylbutyrate, Biochemistry, Article, Cell membrane, Endocrinology, Cell Line, Tumor, Cyclic AMP, medicine, Humans, Obesity, Receptor, Molecular Biology, G protein-coupled receptor, Endoplasmic reticulum, Cell Membrane, Biochemistry (medical), Ubiquitination, General Medicine, Phenylbutyrates, Cell biology, Pharmacological chaperone, medicine.anatomical_structure, Mutation, Unfolded Protein Response, Unfolded protein response, Receptor, Melanocortin, Type 4, Mutant Proteins, Chemical chaperone, medicine.drug
Abstract

Melanocortin-4 receptor (MC4R) is a G protein-coupled receptor expressed in the brain where it controls food intake. Many obesity-linked MC4R variants are poorly expressed at the plasma membrane and are retained intracellularly. We have studied the intracellular localization of four obesity-linked MC4R variants, P78L, R165W, I316S, and I317T, in immortalized neurons. We find that these variants are all retained in the endoplasmic reticulum (ER), are ubiquitinated to a greater extent than the wild-type (wt) receptor, and induce ER stress with increased levels of ER chaperones as compared with wt-MC4R and appearance of CCAAT/enhancer-binding protein homologous protein. Expression of the X-box-binding-protein-1 with selective activation of a protective branch of the unfolded protein response did not have any effect on the cell surface expression of MC4R-I316S. Conversely, the pharmacological chaperone 4-phenyl butyric acid (PBA) increased the cell surface expression of wt-MC4R, MC4R-I316S, and I317T by more than 40%. PBA decreased ubiquitination of MC4R-I316S and prevented ER stress induced by expression of the mutant, suggesting that the drug functions to promote MC4R folding. MC4R-I316S rescued to the cell surface is functional, with a 52% increase in agonist-induced cAMP production, as compared with untreated cells. Also direct inhibition of wt-MC4R and MC4R-I316S ubiquitination by a specific inhibitor of the ubiquitin-activating enzyme 1 increased by approximately 40% the expression of the receptors at the cell surface, and the effects of PBA and ubiquitin-activating enzyme 1 were additive. These data offer a cell-based rationale that drugs that improve MC4R folding or decrease ER-associated degradation of the receptor may function to treat some forms of hereditary obesity.

Published
2010

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