Your search keyword '"disease pathogenesis"' showing total 1,843 results

1. Sugar-coated bullets: Unveiling the enigmatic mystery ‘sweet arsenal’ in osteoarthritis

Author

Liu, Hong-zhi, Song, Xin-qiu, and Zhang, Hongmei

Published

2024

2. Differential changes in mast cells with food reintroduction in children with eosinophilic esophagitis.

Author

Ebanks, Andrew, Wang, Ming-Yu, Hoffmann, Natalie, Wershil, Barry K, and Wechsler, Joshua B

Subjects

EOSINOPHILIC esophagitis, PEARSON correlation (Statistics), ELIMINATION diets, MAST cells, EOSINOPHIL disorders

Abstract

Intraepithelial mast cells (MCs) are increased in eosinophilic esophagitis (EoE) and reduced with elimination of dietary antigens. Single food reintroduction can identify triggers of eosinophilia; however, the extent to which specific foods trigger intraepithelial mastocytosis remains unknown. We hypothesized that specific foods drive different degrees of MC inflammation. We previously reported a prospective pediatric EoE cohort treated with a 4-food elimination diet (4FED) with removal of soy, egg, wheat, and milk. We retrieved unstained slides in which baseline, 4FED, and post-4FED diet reintroduction time points were available. Slides were stained with tryptase, and intraepithelial MCs were counted. Comparisons were made by stratifying patients by eosinophilia, basal cell hyperplasia (BCH), endoscopic abnormalities, and symptoms. Pearson correlation was assessed for MCs with eosinophilic, endoscopic, and BCH severity; symptoms; and a novel mucosal activity score combining endoscopic and histologic structural severity. Slides were available from 37 patients with at least 1 food reintroduced. MCs were significantly reduced with 4FED. Wheat led to increased intraepithelial MCs in the upper esophagus and with food-induced eosinophilia, while milk led to significantly increased MCs in the upper and lower esophagus and was significantly associated with patients with food-triggered eosinophilia, endoscopic abnormalities, BCH, and symptoms. MCs best correlated with the mucosal activity score during milk reintroduction. In children with EoE, MCs are reduced with 4FED. During milk reintroduction, significant increases in MCs were observed with all metrics of inflammation along with moderate correlation with structural mucosal activity that was not seen with other foods. This suggests that milk exerts unique effects either directly or indirectly on MCs in the esophagus in EoE patients. [ABSTRACT FROM AUTHOR]

Published

2024

3. Innovative strategies for the discovery of new drugs against alopecia areata: taking aim at the immune system.

Author

Guo, Hong-Wei, Ye, Zhi-Ming, Chen, Si-Qi, and McElwee, Kevin J

Abstract

Introduction: The autoimmune hair loss condition alopecia areata (AA) exacts a substantial psychological and socioeconomic toll on patients. Biotechnology companies, dermatology clinics, and research institutions are dedicated to understanding AA pathogenesis and developing new therapeutic approaches. Despite recent efforts, many knowledge gaps persist, and multiple treatment development avenues remain unexplored. Areas covered: This review summarizes key AA disease mechanisms, current therapeutic methods, and emerging treatments, including Janus Kinase (JAK) inhibitors. The authors determine that innovative drug discovery strategies for AA are still needed due to continued unmet medical needs and the limited efficacy of current and emerging therapeutics. For prospective AA treatment developers, the authors identify the pre-clinical disease models available, their advantages, and limitations. Further, they outline treatment development opportunities that remain largely unmapped. Expert opinion: While recent advancements in AA therapeutics are promising, challenges remain, including the lack of consistent treatment efficacy, long-term use and safety issues, drug costs, and patient compliance. Future drug development research should focus on patient stratification utilizing robust biomarkers of AA disease activity and improved quantification of treatment response. Investigating superior modes of drug application and developing combination therapies may further improve outcomes. Spirited innovation will be needed to advance more effective treatments for AA. Plain Language Summary: Alopecia areata (AA) is an autoimmune condition that causes hair loss. It significantly affects a patient's emotional well-being and quality of life. Companies, clinics, and researchers are working hard to understand AA and create better treatments. Despite these efforts, there are still many unanswered questions, and new treatment methods still need to be explored. This review summarizes how AA develops, current treatment options, and new therapies like Janus Kinase (JAK) inhibitor drugs. JAK inhibitors show promise, but they are not fully effective for everyone. We emphasize that there is still a need for new and innovative drug discovery strategies to meet the medical needs of AA patients, as current treatments often fall short. For researchers and developers of AA treatments, we discuss the available pre-clinical models used to test new drugs, highlighting their strengths and weaknesses. We also point out new areas for treatment development that have not been thoroughly investigated. Although recent advancements in AA treatments are encouraging, several challenges remain. These include inconsistent effectiveness of treatments, safety concerns with long-term use, high drug costs, and issues with patient adherence to treatment programs. We believe future research should focus on identifying biomarkers that can help tailor treatments to individual patients and improving measurements of treatment success. Additionally, exploring better ways to apply drugs and combining different therapies together may enhance treatment outcomes. Ultimately, innovative approaches and spirited efforts will be required to develop more effective treatments for AA to improve the lives of those affected by this challenging condition. [ABSTRACT FROM AUTHOR]

Published

2024

4. Immune Dysregulation Orchestrated by High-Salt Diet: Mechanistic Insights into Disease Pathogenesis

Author

Chen L, Peng XL, Chen ZX, Qi LM, Deng TT, and Xia LN

Subjects

hsd, immune dysregulation, disease pathogenesis, mechanistic insights, review., Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Li Chen,1,2 Xi-Le Peng,1,2 Zhi-Xuan Chen,1,2 Lu-Ming Qi,1,2 Ting-Ting Deng,2,3 Li-Na Xia1,2 1School of Health Preservation and Rehabilitation, Chengdu University of TCM, Chengdu, Sichuan, People’s Republic of China; 2Key Laboratory of Traditional Chinese Medicine Regimen and Health Industry Development, State Administration of TCM, Chengdu, Sichuan, People’s Republic of China; 3School of Nursing, Chengdu University of TCM, Chengdu, Sichuan, People’s Republic of ChinaCorrespondence: Li-Na Xia, School of Health Preservation and Rehabilitation, Chengdu University of TCM, Chengdu, Sichuan, People’s Republic of China, Email xialina@cdutcm.edu.cnBackground: Excessive salt consumption has been associated with detrimental health consequences, including hypertension, colitis, and autoimmune disorders. However, recent studies have proposed that high salt diet (HSD) can both stimulate the immune system, affecting the differentiation of immune cells, promoting or inhibiting cytokine secretion to fight cancer or elicit a more potent autoimmune response, and exerting an immunosuppressive effect to influence disease development, providing mechanistic insights into the direction of immune regulation in which HSD affects disease.Objective: This paper reviews the immunomodulatory effects of HSD on various innate immune and adaptive cells, especially macrophages, dendritic cells, and T cells, in relation to disease development.Methods: We identified papers by electronically searching the Web of Science (WOS) database from inception through March 2023.Results: A growing number of animal experiments and in vitro cell culture studies have shown that HSD can regulate the differentiation and activation of a variety of immune cells, and promote or inhibit different cytokines to mediate the development of a variety of diseases, including nephropathy, hypertension, cancer, inflammatory bowel disease, and a number of autoimmune diseases. These findings provide a new mechanism for pathological changes in the direction of immune regulation and suggest that HSD is a predisposing factor for a variety of diseases, providing new mechanistic insights into dietary health modification.Conclusion: HSD mediates the development of multiple diseases by regulating the differentiation and activation of a variety of immune cells, and the underlying mechanisms may be related to gut microbes and their metabolites.Keywords: HSD, immune dysregulation, disease pathogenesis, mechanistic insights, review

Published

2024

5. Comparative pathogenesis of Ethiopia/Habru/2014 Lineage-IV peste des petits ruminants virus in goats and cattle

Author

Fasil Aklilu, Hagos Ashenafi, Tesfu Kassa, Hassen Chaka, Demeke Sibhatu, Dereje Shegu, Abde Aliy Mohammed, Redeat Belaineh, Menbere Kidane, Hagos Asgedom, Tesfaye Chibssa, Getnet Mekonnen, Asegedetch Sirak, Solomon Gebredufe, Claudia Schulz, Catherine M. Herzog, and Vivek Kapur

Subjects

Cattle, Comparative pathology, Goats, Disease pathogenesis, Experimental, PPR, Veterinary medicine, SF600-1100

Abstract

Abstract Background Peste des Petits Ruminants (PPR) is a highly contagious viral disease primarily affecting goats and sheep, with clinical manifestations ranging from peracute disease to subclinical infection, particularly in atypical hosts such as cattle. The role of atypical hosts such as cattle to the spread of PPR remains controversial, with conflicting reports in the literature. Despite its worldwide significance, considerable knowledge gaps exist regarding the pathogenesis and clinical progression in both primary and atypical hosts. This study aimed to elucidate the tissue tropism, pathogenesis, virus shedding, clinical progression, and pathology associated with experimental PPR virus infection in indigenous goats and cattle. To this end, 32 animals—16 goats and 16 cattle—were intranasally inoculated with the Ethiopia/Habru/2014 Lineage-IV strain of the PPR virus followed by detailed clinical evaluations and systematic sampling at pre-established intervals to assess serological conversion, viral shedding, and the pathogenesis of the infection across both species. Results The results show that goats exhibited typical clinical signs 4 days post-inoculation, with seroconversion by day 6 and early detection of viral RNA in swabs and tissues by day 3 and virus isolation starting day 4. In contrast, cattle exhibited minimal clinical signs, with seroconversion occurring at day 8 with viral RNA detected in tissue samples at day 4 and virus isolation starting day 6 in tissues and in a single nasal swab at day 8. Clinical scores and tissue positivity rates significantly differed between goats and cattle (P = 0.007 and P

Published

2024

6. Comparative pathogenesis of Ethiopia/Habru/2014 Lineage-IV peste des petits ruminants virus in goats and cattle.

Author

Aklilu, Fasil, Ashenafi, Hagos, Kassa, Tesfu, Chaka, Hassen, Sibhatu, Demeke, Shegu, Dereje, Mohammed, Abde Aliy, Belaineh, Redeat, Kidane, Menbere, Asgedom, Hagos, Chibssa, Tesfaye, Mekonnen, Getnet, Sirak, Asegedetch, Gebredufe, Solomon, Schulz, Claudia, Herzog, Catherine M., and Kapur, Vivek

Subjects

*PESTE des petits ruminants, *VIRUS isolation, *PATHOLOGY, *STATISTICAL sampling, *VIRAL shedding

Abstract

Background: Peste des Petits Ruminants (PPR) is a highly contagious viral disease primarily affecting goats and sheep, with clinical manifestations ranging from peracute disease to subclinical infection, particularly in atypical hosts such as cattle. The role of atypical hosts such as cattle to the spread of PPR remains controversial, with conflicting reports in the literature. Despite its worldwide significance, considerable knowledge gaps exist regarding the pathogenesis and clinical progression in both primary and atypical hosts. This study aimed to elucidate the tissue tropism, pathogenesis, virus shedding, clinical progression, and pathology associated with experimental PPR virus infection in indigenous goats and cattle. To this end, 32 animals—16 goats and 16 cattle—were intranasally inoculated with the Ethiopia/Habru/2014 Lineage-IV strain of the PPR virus followed by detailed clinical evaluations and systematic sampling at pre-established intervals to assess serological conversion, viral shedding, and the pathogenesis of the infection across both species. Results: The results show that goats exhibited typical clinical signs 4 days post-inoculation, with seroconversion by day 6 and early detection of viral RNA in swabs and tissues by day 3 and virus isolation starting day 4. In contrast, cattle exhibited minimal clinical signs, with seroconversion occurring at day 8 with viral RNA detected in tissue samples at day 4 and virus isolation starting day 6 in tissues and in a single nasal swab at day 8. Clinical scores and tissue positivity rates significantly differed between goats and cattle (P = 0.007 and P < 0.001, respectively). While goats exhibited expected gross and histopathological lesions, cattle showed only nonspecific lesions. Conclusions: Together, our findings highlight the importance of comparative pathology studies for better understanding virus dynamics and transmission pathways that may help inform more effective PPR control programs. Future research should explore the pathogenesis of different PPRV lineages in cattle, assessing variations in disease progression and potential for epidemiological impact. [ABSTRACT FROM AUTHOR]

Published

2024

7. The interaction of innate immune and adaptive immune system.

Author

Wang, Ruyuan, Lan, Caini, Benlagha, Kamel, Camara, Niels Olsen Saraiva, Miller, Heather, Kubo, Masato, Heegaard, Steffen, Lee, Pamela, Yang, Lu, Forsman, Huamei, Li, Xingrui, Zhai, Zhimin, and Liu, Chaohong

Subjects

PATTERN perception receptors, NATURAL immunity, IMMUNE system, B cells, T cells

Abstract

The innate immune system serves as the body's first line of defense, utilizing pattern recognition receptors like Toll‐like receptors to detect pathogens and initiate rapid response mechanisms. Following this initial response, adaptive immunity provides highly specific and sustained killing of pathogens via B cells, T cells, and antibodies. Traditionally, it has been assumed that innate immunity activates adaptive immunity; however, recent studies have revealed more complex interactions. This review provides a detailed dissection of the composition and function of the innate and adaptive immune systems, emphasizing their synergistic roles in physiological and pathological contexts, providing new insights into the link between these two forms of immunity. Precise regulation of both immune systems at the same time is more beneficial in the fight against immune‐related diseases, for example, the cGAS–STING pathway has been found to play an important role in infections and cancers. In addition, this paper summarizes the challenges and future directions in the field of immunity, including the latest single‐cell sequencing technologies, CAR‐T cell therapy, and immune checkpoint inhibitors. By summarizing these developments, this review aims to enhance our understanding of the complexity interactions between innate and adaptive immunity and provides new perspectives in understanding the immune system. [ABSTRACT FROM AUTHOR]

Published

2024

8. Discovery of Novel Biomarkers with Extended Non-Coding RNA Interactor Networks from Genetic and Protein Biomarkers.

Author

Jezernik, Gregor, Glavač, Damjan, Skok, Pavel, Krušič, Martina, Potočnik, Uroš, and Gorenjak, Mario

Subjects

*NON-coding RNA, *GENE ontology, *ONLINE databases, *DISEASE susceptibility, *MELANOGENESIS

Abstract

Curated online interaction databases and gene ontology tools have streamlined the analysis of highly complex gene/protein networks. However, understanding of disease pathogenesis has gradually shifted from a protein-based core to complex interactive networks where non-coding RNA (ncRNA) is thought to play an essential role. As current gene ontology is based predominantly on protein-level information, there is a growing need to analyze networks with ncRNA. In this study, we propose a gene ontology workflow integrating ncRNA using the NPInter V5.0 database. To validate the proposed workflow, we analyzed our previously published curated biomarker datasets for hidden disease susceptibility processes and pharmacogenomics. Our results show a novel involvement of melanogenesis in psoriasis response to biological drugs in general. Hyperpigmentation has been previously observed in psoriasis following treatment with currently indicated biological drugs, thus calling attention to melanogenesis research as a response biomarker in psoriasis. Moreover, our proposed workflow highlights the need to critically evaluate computed ncRNA interactions within databases and a demand for gene ontology analysis of large miRNA blocks. [ABSTRACT FROM AUTHOR]

Published

2024

9. New aspects of redox signaling mediated by supersulfides in health and disease.

Author

Akaike, Takaaki, Morita, Masanobu, Ogata, Seiryo, Yoshitake, Jun, Jung, Minkyung, Sekine, Hiroki, Motohashi, Hozumi, Barayeu, Uladzimir, and Matsunaga, Tetsuro

Subjects

*LIFE sciences, *CHEMICAL properties, *OXIDATIVE stress, *REACTIVE oxygen species, *ENERGY metabolism

Abstract

Oxygen molecules accept electrons from the respiratory chain in the mitochondria and are responsible for energy production in aerobic organisms. The reactive oxygen species formed via these oxygen reduction processes undergo complicated electron transfer reactions with other biological substances, which leads to alterations in their physiological functions and cause diverse biological and pathophysiological consequences (e.g., oxidative stress). Oxygen accounts for only a small proportion of the redox reactions in organisms, especially under aerobic or hypoxic conditions but not under anaerobic and hypoxic conditions. This article discusses a completely new concept of redox biology, which is governed by redox-active supersulfides, i.e., sulfur-catenated molecular species. These species are present in abundance in all organisms but remain largely unexplored in terms of redox biology and life science research. In fact, accumulating evidence shows that supersulfides have extensive redox chemical properties and that they can be readily ionized or radicalized to participate in energy metabolism, redox signaling, and oxidative stress responses in cells and in vivo. Thus, pharmacological intervention and medicinal modulation of supersulfide activities have been shown to benefit the regulation of disease pathogenesis as well as disease control. [Display omitted] • Supersulfides are key players in cell signaling. • Reactive hydropersulfides scavenge cellular electrophiles, such as 8-nitro-cGMP. • Inflammatory responses are regulated by supersulfides. • Radical scavenging properties of hydropersulfides enable their prevention of lipid peroxidation and ferroptosis. • Supersulfides regulate and contribute to mitochondrial respiration. [ABSTRACT FROM AUTHOR]

Published

2024

10. MIAT LncRNA: A multifunctional key player in non-oncological pathological conditions

Author

Yousra Zeinelabdeen, Tasneem Abaza, Montaser Bellah Yasser, Noha M. Elemam, and Rana A. Youness

Subjects

LncRNAs, MIAT, Non-oncological conditions, Biomarkers, Therapeutic targets, Disease pathogenesis, Genetics, QH426-470

Abstract

The discovery of non-coding RNAs (ncRNAs) has unveiled a wide range of transcripts that do not encode proteins but play key roles in several cellular and molecular processes. Long noncoding RNAs (lncRNAs) are specific class of ncRNAs that are longer than 200 nucleotides and have gained significant attention due to their diverse mechanisms of action and potential involvement in various pathological conditions. In the current review, the authors focus on the role of lncRNAs, specifically highlighting the Myocardial Infarction Associated Transcript (MIAT), in non-oncological context. MIAT is a nuclear lncRNA that has been directly linked to myocardial infarction and is reported to control post-transcriptional processes as a competitive endogenous RNA (ceRNA) molecule. It interacts with microRNAs (miRNAs), thereby limiting the translation and expression of their respective target messenger RNA (mRNA) and regulating protein expression. Yet, MIAT has been implicated in other numerous pathological conditions such as other cardiovascular diseases, autoimmune disease, neurodegenerative diseases, metabolic diseases, and many others. In this review, the authors emphasize that MIAT exhibits distinct expression patterns and functions across different pathological conditions and is emerging as potential diagnostic, prognostic, and therapeutic agent. Additionally, the authors highlight the regulatory role of MIAT and shed light on the involvement of lncRNAs and specifically MIAT in various non-oncological pathological conditions.

Published

2024

11. Microbiome and Its Impact on Human Health: Microbiome in Various Body Organs and Its Association with Human Health and Disease

Author

Imran, Muhammad, Ahmad, Bashir, Masood, Nosheen, editor, and Yasmin, Azra, editor

Published

2024

12. The interaction of innate immune and adaptive immune system

Author

Ruyuan Wang, Caini Lan, Kamel Benlagha, Niels Olsen Saraiva Camara, Heather Miller, Masato Kubo, Steffen Heegaard, Pamela Lee, Lu Yang, Huamei Forsman, Xingrui Li, Zhimin Zhai, and Chaohong Liu

Subjects

adaptive immunity, disease pathogenesis, immunotherapy, innate immunity, Medicine

Abstract

Abstract The innate immune system serves as the body's first line of defense, utilizing pattern recognition receptors like Toll‐like receptors to detect pathogens and initiate rapid response mechanisms. Following this initial response, adaptive immunity provides highly specific and sustained killing of pathogens via B cells, T cells, and antibodies. Traditionally, it has been assumed that innate immunity activates adaptive immunity; however, recent studies have revealed more complex interactions. This review provides a detailed dissection of the composition and function of the innate and adaptive immune systems, emphasizing their synergistic roles in physiological and pathological contexts, providing new insights into the link between these two forms of immunity. Precise regulation of both immune systems at the same time is more beneficial in the fight against immune‐related diseases, for example, the cGAS–STING pathway has been found to play an important role in infections and cancers. In addition, this paper summarizes the challenges and future directions in the field of immunity, including the latest single‐cell sequencing technologies, CAR‐T cell therapy, and immune checkpoint inhibitors. By summarizing these developments, this review aims to enhance our understanding of the complexity interactions between innate and adaptive immunity and provides new perspectives in understanding the immune system.

Published

2024

13. Using team-based precision medicine to advance understanding of rare genetic brain disorders

Author

Steven U. Walkley, Sophie Molholm, Bryen Jordan, Robert W. Marion, and Melissa Wasserstein

Subjects

Intellectual and developmental disabilities, Rare disease, Neurodevelopmental disorders, Precision medicine, NextGen sequencing, Disease pathogenesis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract We describe a multidisciplinary teamwork approach known as “Operation IDD Gene Team” developed by the Rose F. Kennedy Intellectual and Developmental Disabilities Research Center (RFK IDDRC) at the Albert Einstein College of Medicine. This initiative brings families affected by rare genetic diseases that cause intellectual and developmental disability together with physicians, basic scientists, and their trainees. At team meetings, family members share their child’s medical and personal history, physicians describe the broader clinical consequences of the condition, and scientists provide accessible tutorials focused on the fundamental biology of relevant genes. When appropriate, possible treatment approaches are also discussed. The outcomes of team meetings have been overwhelmingly positive, with families not only expressing deep gratitude, but also becoming empowered to establish foundations dedicated to their child’s specific condition. Physicians, and in particular the scientists and their trainees, have gained a deeper understanding of challenges faced by affected families, broadening their perspective on how their research can extend beyond the laboratory. Remarkably, research by the scientists following the Gene Team meetings have often included focus on the actual gene variants exhibited by the participating children. As these investigations progress and newly created foundations expand their efforts, national as well as international collaborations are forged. These developments emphasize the importance of rare diseases as windows into previously unexplored molecular and cellular processes, which can offer fresh insights into both normal function as well as more common diseases. Elucidating the mechanisms of and treatments for rare and ultra-rare diseases thus has benefits for all involved—families, physicians, and scientists and their trainees, as well as the broader medical community. While the RFK IDDRC’s Operation IDD Gene Team program has focused on intellectual disabilities affecting children, we believe it has the potential to be applied to rare genetic diseases impacting individuals of any age and encompassing a wide variety of developmental disorders affecting multiple organ systems.

Published

2024

14. Using team-based precision medicine to advance understanding of rare genetic brain disorders

Author

Walkley, Steven U., Molholm, Sophie, Jordan, Bryen, Marion, Robert W., and Wasserstein, Melissa

Published

2024

15. DETERMINE COPY NUMBER VARIATION LOAD IN THE GENOME OF INTELLECTUAL DISABILITY PATIENTS USING COMPARATIVE GENOMIC HYBRIDIZATION MICROARRAY.

Author

Rai, Gunjan, Singh, Nitish Kumar, Singh, Ankur, Shrivastav, Mona, Ashish, and Singh, Royana

Subjects

COMPARATIVE genomic hybridization, DNA copy number variations, CHILDREN with intellectual disabilities, INTELLECTUAL disabilities, CHROMOSOME abnormalities, GENOMES

Abstract

Mental retardation, characterized by impaired intellectual functioning and adaptive behaviour, often involves chromosome anomalies. While conventional karyotyping detects some anomalies, a significant portion remains undetected due to limitations in resolution. Array-based Comparative Genomic Hybridization (aCGH) provides higher resolution and is increasingly used for diagnosis. This study aims to assess CNVs in children with intellectual disabilities using aCGH. Fiftyfour children with intellectual disabilities were selected and blood samples were obtained. DNA was extracted and analyzed using aCGH. The study was conducted at Banaras Hindu University, India, following ethical guidelines. 54 samples, 38 showed abnormal karyotypes. The remaining 16 underwent aCGH, revealing CNVs across various chromosomes. CNVs impacted genes associated with neurodevelopmental disorders (e.g., FCGR3B, CFHR3, CFHR1), immune response (e.g., HLA-DRB6, HLA-DRB1, HLA-DQA1) and metabolic pathways (e.g., UGT2B17). Chromosomes 1, 9 and 21 exhibited multiple CNVs, suggesting their involvement in intellectual disability. In conclusion, this study underscores the genetic complexity of intellectual disability, highlighting the importance of CNV analysis for diagnosis and understanding disease pathogenesis. Further research and larger-scale studies are needed to elucidate the specific contributions of CNVs to intellectual disability and inform clinical management and therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

16. Animal models of Klebsiella pneumoniae mucosal infections.

Author

Assoni, Lucas, Melo Couto, Ana Julia, Vieira, Brenda, Milani, Bárbara, Lima, Alice Souza, Converso, Thiago Rojas, and Darrieux, Michelle

Subjects

KLEBSIELLA pneumoniae, BRACHYDANIO, ANIMAL models in research, MUCOUS membranes, GREATER wax moth, DROSOPHILA melanogaster

Abstract

Klebsiella pneumoniae is among the most relevant pathogens worldwide, causing high morbidity and mortality, which is worsened by the increasing rates of antibiotic resistance. It is a constituent of the host microbiota of different mucosa, that can invade and cause infections in many different sites. The development of new treatments and prophylaxis against this pathogen rely on animal models to identify potential targets and evaluate the efficacy and possible side effects of therapeutic agents or vaccines. However, the validity of data generated is highly dependable on choosing models that can adequately reproduce the hallmarks of human diseases. The present review summarizes the current knowledge on animal models used to investigate K. pneumoniae infections, with a focus on mucosal sites. The advantages and limitations of each model are discussed and compared; the applications, extrapolations to human subjects and future modifications that can improve the current techniques are also presented. While mice are the most widely used species in K. pneumoniae animal studies, they present limitations such as the natural resistance to the pathogen and difficulties in reproducing the main steps of human mucosal infections. Other models, such as Drosophila melanogaster (fruit fly), Caenorhabditis elegans, Galleria mellonella and Danio rerio (zebrafish), contribute to understanding specific aspects of the infection process, such as bacterial lethality and colonization and innate immune system response, however, they but do not present the immunological complexity of mammals. In conclusion, the choice of the animal model of K. pneumoniae infection will depend mainly on the questions being addressed by the study, while a better understanding of the interplay between bacterial virulence factors and animal host responses will provide a deeper comprehension of the disease process and aid in the development of effective preventive/therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

17. Deep Learning Empowered Decision Support Systems for Thyroid Cancer Detection and Management.

Author

Zhang, Xinyu and Lee, Vincent CS

Subjects

DECISION support systems, DEEP learning, THYROID cancer, MACHINE learning, DISEASE risk factors, EARLY detection of cancer, CONVOLUTIONAL neural networks

Abstract

Exploiting the capability of deep learning-based techniques, this research addresses an important and relevant problem on how to cost effectively detect thyroid cancer. In recent decades, there has been a significant increase in the incidence of thyroid cancer, prompting the need to understand its epidemiology. Existing studies have primarily employed qualitative techniques to investigate a single risk factor correlated with the disease development at a time. However, such an approach is inefficient and tends to ignore the interwoven connections among factors, resulting in a considerable disagreement with the identified risk factors among scholars. Additionally, the use of deep learning techniques in conjunction with medical imaging for computer-aided diagnostic (CAD) systems design has shown promises in detecting the disease, while there are research gaps regarding the detection of subtype and their co-existence. More importantly, existing CAD systems have shortcomings in adapting to different sample groups. To address these challenges, this research aims to shed light on the pathogenesis of thyroid cancer, enhance diagnostic performance, and improve generalisation of deep learning-based decision support systems. By harnessing the power of machine learning, specifically data mining and deep learning techniques, we seek to improve our understanding of the underlying mechanisms of the disease and develop innovative, robust, accurate, and efficient diagnostic tools. Extensive experiments indicate superior performance of the proposed methods than existing works. The systems proposed in this study have great impact to the wider society and contribute to the advancement of thyroid cancer research while enhancing clinical practice in related detection and subsequent management. [ABSTRACT FROM AUTHOR]

Published

2024

18. Cell Type-Specific Extracellular Vesicles and Their Impact on Health and Disease.

Author

Amin, Sohil, Massoumi, Hamed, Tewari, Deepshikha, Roy, Arnab, Chaudhuri, Madhurima, Jazayerli, Cedra, Krishan, Abhi, Singh, Mannat, Soleimani, Mohammad, Karaca, Emine E., Mirzaei, Arash, Guaiquil, Victor H., Rosenblatt, Mark I., Djalilian, Ali R., and Jalilian, Elmira

Subjects

*EXTRACELLULAR vesicles, *CELL communication, *MESENCHYMAL stem cells, *MORPHOGENESIS, *COMMUNICATIVE competence, *NUCLEIC acids

Abstract

Extracellular vesicles (EVs), a diverse group of cell-derived exocytosed particles, are pivotal in mediating intercellular communication due to their ability to selectively transfer biomolecules to specific cell types. EVs, composed of proteins, nucleic acids, and lipids, are taken up by cells to affect a variety of signaling cascades. Research in the field has primarily focused on stem cell-derived EVs, with a particular focus on mesenchymal stem cells, for their potential therapeutic benefits. Recently, tissue-specific EVs or cell type-specific extracellular vesicles (CTS-EVs), have garnered attention for their unique biogenesis and molecular composition because they enable highly targeted cell-specific communication. Various studies have outlined the roles that CTS-EVs play in the signaling for physiological function and the maintenance of homeostasis, including immune modulation, tissue regeneration, and organ development. These properties are also exploited for disease propagation, such as in cancer, neurological disorders, infectious diseases, autoimmune conditions, and more. The insights gained from analyzing CTS-EVs in different biological roles not only enhance our understanding of intercellular signaling and disease pathogenesis but also open new avenues for innovative diagnostic biomarkers and therapeutic targets for a wide spectrum of medical conditions. This review comprehensively outlines the current understanding of CTS-EV origins, function within normal physiology, and implications in diseased states. [ABSTRACT FROM AUTHOR]

Published

2024

19. Biological function molecular pathways and druggability of DNMT2/TRDMT1

Author

Huari Li, Huiru Liu, Daiyun Zhu, Chengli Dou, Baocai Gang, Mengjie Zhang, and Ziyu Wan

Subjects

DNMT2/TRDMT1, Methylation modification, Catalytic mechanism, Disease pathogenesis, Inhibitor development, Therapeutics. Pharmacology, RM1-950

Abstract

5-methylcytosine (m5C) is among the most common epigenetic modification in DNA and RNA molecules, and plays an important role in the animal development and disease pathogenesis. Interestingly, unlike other m5C DNA methyltransferases (DNMTs), DNMT2/TRDMT1 has the double-substrate specificity and adopts a DNMT-similar catalytic mechanism to methylate RNA. Moreover, it is widely involved in a variety of physiological regulatory processes, such as the gene expression, precise protein synthesis, immune response, and disease occurrence. Thus, comprehending the epigenetic mechanism and function of DNMT2/TRDMT1 will probably provide new strategies to treat some refractory diseases. Here, we discuss recent studies on the spatiotemporal expression pattern and post-translational modifications of DNMT2/TRDMT1, and summarize the research advances in substrate characteristics, catalytic recognition mechanism, DNMT2/TRDMT1-related genes or proteins, pharmacological application, and inhibitor development. This review will shed light on the pharmacological design by targeting DNMT2/TRDMT1 to treat parasitic, viral and oncologic diseases.

Published

2024

20. Patient-derived iPSC models of Friedreich ataxia: a new frontier for understanding disease mechanisms and therapeutic application

Author

Saumya Maheshwari, Gabriela Vilema-Enríquez, and Richard Wade-Martins

Subjects

Friedreich ataxia, Induced pluripotent stem cells, Disease modelling, Disease pathogenesis, Drug development, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Friedreich ataxia (FRDA) is a rare genetic multisystem disorder caused by a pathological GAA trinucleotide repeat expansion in the FXN gene. The numerous drawbacks of historical cellular and rodent models of FRDA have caused difficulty in performing effective mechanistic and translational studies to investigate the disease. The recent discovery and subsequent development of induced pluripotent stem cell (iPSC) technology provides an exciting platform to enable enhanced disease modelling for studies of rare genetic diseases. Utilising iPSCs, researchers have created phenotypically relevant and previously inaccessible cellular models of FRDA. These models enable studies of the molecular mechanisms underlying GAA-induced pathology, as well as providing an exciting tool for the screening and testing of novel disease-modifying therapies. This review explores how the use of iPSCs to study FRDA has developed over the past decade, as well as discussing the enormous therapeutic potentials of iPSC-derived models, their current limitations and their future direction within the field of FRDA research. Graphical abstract

Published

2023

21. Animal models of Klebsiella pneumoniae mucosal infections

Author

Lucas Assoni, Ana Julia Melo Couto, Brenda Vieira, Bárbara Milani, Alice Souza Lima, Thiago Rojas Converso, and Michelle Darrieux

Subjects

Klebsiella pneumoniae, animal models, disease pathogenesis, mucosal infection, pre-clinical, Microbiology, QR1-502

Abstract

Klebsiella pneumoniae is among the most relevant pathogens worldwide, causing high morbidity and mortality, which is worsened by the increasing rates of antibiotic resistance. It is a constituent of the host microbiota of different mucosa, that can invade and cause infections in many different sites. The development of new treatments and prophylaxis against this pathogen rely on animal models to identify potential targets and evaluate the efficacy and possible side effects of therapeutic agents or vaccines. However, the validity of data generated is highly dependable on choosing models that can adequately reproduce the hallmarks of human diseases. The present review summarizes the current knowledge on animal models used to investigate K. pneumoniae infections, with a focus on mucosal sites. The advantages and limitations of each model are discussed and compared; the applications, extrapolations to human subjects and future modifications that can improve the current techniques are also presented. While mice are the most widely used species in K. pneumoniae animal studies, they present limitations such as the natural resistance to the pathogen and difficulties in reproducing the main steps of human mucosal infections. Other models, such as Drosophila melanogaster (fruit fly), Caenorhabditis elegans, Galleria mellonella and Danio rerio (zebrafish), contribute to understanding specific aspects of the infection process, such as bacterial lethality and colonization and innate immune system response, however, they but do not present the immunological complexity of mammals. In conclusion, the choice of the animal model of K. pneumoniae infection will depend mainly on the questions being addressed by the study, while a better understanding of the interplay between bacterial virulence factors and animal host responses will provide a deeper comprehension of the disease process and aid in the development of effective preventive/therapeutic strategies.

Published

2024

22. Sugar-coated bullets: Unveiling the enigmatic mystery ‘sweet arsenal’ in osteoarthritis

Author

Hong-zhi Liu, Xin-qiu Song, and Hongmei Zhang

Subjects

Glycosylation, Glycation, Osteoarthritis, Protein modification, Disease pathogenesis, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Glycosylation is a crucial post-translational modification process where sugar molecules (glycans) are covalently linked to proteins, lipids, or other biomolecules. In this highly regulated and complex process, a series of enzymes are involved in adding, modifying, or removing sugar residues. This process plays a pivotal role in various biological functions, influencing the structure, stability, and functionality of the modified molecules. Glycosylation is essential in numerous biological processes, including cell adhesion, signal transduction, immune response, and biomolecular recognition. Dysregulation of glycosylation is associated with various diseases. Glycation, a post-translational modification characterized by the non-enzymatic attachment of sugar molecules to proteins, has also emerged as a crucial factor in various diseases. This review comprehensively explores the multifaceted role of glycation in disease pathogenesis, with a specific focus on its implications in osteoarthritis (OA). Glycosylation and glycation alterations wield a profound influence on OA pathogenesis, intertwining with disease onset and progression. Diverse studies underscore the multifaceted role of aberrant glycosylation in OA, particularly emphasizing its intricate relationship with joint tissue degradation and inflammatory cascades. Distinct glycosylation patterns, including N-glycans and O-glycans, showcase correlations with inflammatory cytokines, matrix metalloproteinases, and cellular senescence pathways, amplifying the degenerative processes within cartilage. Furthermore, the impact of advanced glycation end-products (AGEs) formation in OA pathophysiology unveils critical insights into glycosylation-driven chondrocyte behavior and extracellular matrix remodeling. These findings illuminate potential therapeutic targets and diagnostic markers, signaling a promising avenue for targeted interventions in OA management. In this comprehensive review, we aim to thoroughly examine the significant impact of glycosylation or AGEs in OA and explore its varied effects on other related conditions, such as liver-related diseases, immune system disorders, and cancers, among others. By emphasizing glycosylation's role beyond OA and its implications in other diseases, we uncover insights that extend beyond the immediate focus on OA, potentially revealing novel perspectives for diagnosing and treating OA.

Published

2024

23. IgG Antibody Responses to Epstein-Barr Virus in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome: Their Effective Potential for Disease Diagnosis and Pathological Antigenic Mimicry.

Author

Fonseca, André, Szysz, Mateusz, Ly, Hoang Thien, Cordeiro, Clara, and Sepúlveda, Nuno

Subjects

MOLECULAR mimicry, CHRONIC fatigue syndrome, ANTIBODY formation, PSEUDOPOTENTIAL method, DIAGNOSIS, AUTOIMMUNE diseases

Abstract

Background and Objectives: The diagnosis and pathology of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) remain under debate. However, there is a growing body of evidence for an autoimmune component in ME/CFS caused by the Epstein-Barr virus (EBV) and other viral infections. Materials and Methods: In this work, we analyzed a large public dataset on the IgG antibodies to 3054 EBV peptides to understand whether these immune responses could help diagnose patients and trigger pathological autoimmunity; we used healthy controls (HCs) as a comparator cohort. Subsequently, we aimed at predicting the disease status of the study participants using a super learner algorithm targeting an accuracy of 85% when splitting data into train and test datasets. Results: When we compared the data of all ME/CFS patients or the data of a subgroup of those patients with non-infectious or unknown disease triggers to the data of the HC, we could not find an antibody-based classifier that would meet the desired accuracy in the test dataset. However, we could identify a 26-antibody classifier that could distinguish ME/CFS patients with an infectious disease trigger from the HCs with 100% and 90% accuracies in the train and test sets, respectively. We finally performed a bioinformatic analysis of the EBV peptides associated with these 26 antibodies. We found no correlation between the importance metric of the selected antibodies in the classifier and the maximal sequence homology between human proteins and each EBV peptide recognized by these antibodies. Conclusions: In conclusion, these 26 antibodies against EBV have an effective potential for disease diagnosis in a subset of patients. However, the peptides associated with these antibodies are less likely to induce autoimmune B-cell responses that could explain the pathogenesis of ME/CFS. [ABSTRACT FROM AUTHOR]

Published

2024

24. Novel Insight into the Etiology of Haff Disease by Mapping the N-Glycome with Orthogonal Mass Spectrometry

Author

Si Liu, Yuanyuan Liu, Jiajing Lin, Bi-Feng Liu, Zhenyu He, Xiaomin Wu, and Xin Liu

Subjects

Haff disease, Serum, Immunoglobulin G, Glycosylation, Disease pathogenesis, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Consumption of boiled crayfish may lead to Haff disease (HD), which is considered to result from an unidentified toxin, although the etiology is still obscure. Profiling of the N-glycome in HD would assist in deciphering the underlying molecular mechanism of the disease, whereas HD-associated glycosylation has never been explored. Herein, we enrolled 90 serum samples with HD patients and healthy controls from the Wuhan Center for Disease Control & Prevention between 2019 and 2020. N-glycome profiles of both serum and serum-derived immunoglobulin G (IgG) in HD were characterized by means of high-throughput-based orthogonal mass spectrometry. It was observed that HD is associated with an increase in the core fucosylation and mono-galactosylation of total serum glycoproteins. The serum level of IgG was found to serve as a good indicator for HD patients. In addition, differential galactosylation and sialylation of IgG were strongly correlated with HD. It was notable that the changes in the galactosylation and sialylation of IgG1 and IgG2 were subclass specific. Interestingly, altered sialylation and galactosylation of IgG2 or IgG3/4 strongly correlated with clinical markers for HD. Our study reveals the association of differential IgG N-glycosylation with HD, providing new insight into the etiology of this rare disease.

Published

2023

25. Patient-derived iPSC models of Friedreich ataxia: a new frontier for understanding disease mechanisms and therapeutic application.

Author

Maheshwari, Saumya, Vilema-Enríquez, Gabriela, and Wade-Martins, Richard

Subjects

*INDUCED pluripotent stem cells, *ATAXIA, *TRINUCLEOTIDE repeats, *GENETIC disorders, *CEREBELLUM degeneration, *SPINOCEREBELLAR ataxia

Abstract

Friedreich ataxia (FRDA) is a rare genetic multisystem disorder caused by a pathological GAA trinucleotide repeat expansion in the FXN gene. The numerous drawbacks of historical cellular and rodent models of FRDA have caused difficulty in performing effective mechanistic and translational studies to investigate the disease. The recent discovery and subsequent development of induced pluripotent stem cell (iPSC) technology provides an exciting platform to enable enhanced disease modelling for studies of rare genetic diseases. Utilising iPSCs, researchers have created phenotypically relevant and previously inaccessible cellular models of FRDA. These models enable studies of the molecular mechanisms underlying GAA-induced pathology, as well as providing an exciting tool for the screening and testing of novel disease-modifying therapies. This review explores how the use of iPSCs to study FRDA has developed over the past decade, as well as discussing the enormous therapeutic potentials of iPSC-derived models, their current limitations and their future direction within the field of FRDA research. [ABSTRACT FROM AUTHOR]

Published

2023

26. 液-液相分离在细胞命运转变和疾病中的作用.

Author

陈一龙, 凌晓茹, 于浩澎, and 丁俊军

Subjects

PHASE separation, PATHOGENESIS, THERAPEUTICS

Abstract

Copyright of Journal of Sichuan University (Medical Science Edition) is the property of Editorial Board of Journal of Sichuan University (Medical Sciences) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

27. Breaking Bad: Inflammasome Activation by Respiratory Viruses.

Author

Cerato, Julia A., da Silva, Emanuelle F., and Porto, Barbara N.

Subjects

*SARS-CoV-2, *LUNGS, *INFLAMMASOMES, *PLANT viruses, *VIRAL antibodies

Abstract

Simple Summary: Inflammasomes are multiprotein complexes that sense endogenous damage stimuli and diverse microbial pathogens, including viruses. A growing body of evidence shows that inflammasome activation by respiratory viruses, such as influenza virus and coronaviruses, is a double-edged sword. While inflammasomes are important for viral clearance and tissue injury recovery, an uncontrolled inflammasome activation leads to hyperinflammation and severe disease. This review summarizes the up-to-date knowledge on how respiratory viruses activate inflammasomes and how it influences disease pathogenesis. The nucleotide-binding domain leucine-rich repeat-containing receptor (NLR) family is a group of intracellular sensors activated in response to harmful stimuli, such as invading pathogens. Some NLR family members form large multiprotein complexes known as inflammasomes, acting as a platform for activating the caspase-1-induced canonical inflammatory pathway. The canonical inflammasome pathway triggers the secretion of the pro-inflammatory cytokines interleukin (IL)-1β and IL-18 by the rapid rupture of the plasma cell membrane, subsequently causing an inflammatory cell death program known as pyroptosis, thereby halting viral replication and removing infected cells. Recent studies have highlighted the importance of inflammasome activation in the response against respiratory viral infections, such as influenza and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). While inflammasome activity can contribute to the resolution of respiratory virus infections, dysregulated inflammasome activity can also exacerbate immunopathology, leading to tissue damage and hyperinflammation. In this review, we summarize how different respiratory viruses trigger inflammasome pathways and what harmful effects the inflammasome exerts along with its antiviral immune response during viral infection in the lungs. By understanding the crosstalk between invading pathogens and inflammasome regulation, new therapeutic strategies can be exploited to improve the outcomes of respiratory viral infections. [ABSTRACT FROM AUTHOR]

Published

2023

28. Realization of Amyloid-like Aggregation as a Common Cause for Pathogenesis in Diseases.

Author

Naskar, Soumick and Gour, Nidhi

Subjects

*GAUCHER'S disease, *AMYLIN, *AMYLOID beta-protein, *INBORN errors of metabolism, *PEPTIDES, *TYPE 2 diabetes

Abstract

Amyloids were conventionally referred to as extracellular and intracellular accumulation of Aβ42 peptide, which causes the formation of plaques and neurofibrillary tangles inside the brain leading to the pathogenesis in Alzheimer's disease. Subsequently, amyloid-like deposition was found in the etiology of prion diseases, Parkinson's disease, type II diabetes, and cancer, which was attributed to the aggregation of prion protein, α-Synuclein, islet amyloid polypeptide protein, and p53 protein, respectively. Hence, traditionally amyloids were considered aggregates formed exclusively by proteins or peptides. However, since the last decade, it has been discovered that other metabolites, like single amino acids, nucleobases, lipids, glucose derivatives, etc., have a propensity to form amyloid-like toxic assemblies. Several studies suggest direct implications of these metabolite assemblies in the patho-physiology of various inborn errors of metabolisms like phenylketonuria, tyrosinemia, cystinuria, and Gaucher's disease, to name a few. In this review, we present a comprehensive literature overview that suggests amyloid-like structure formation as a common phenomenon for disease progression and pathogenesis in multiple syndromes. The review is devoted to providing readers with a broad knowledge of the structure, mode of formation, propagation, and transmission of different extracellular amyloids and their implications in the pathogenesis of diseases. We strongly believe a review on this topic is urgently required to create awareness about the understanding of the fundamental molecular mechanism behind the origin of diseases from an amyloid perspective and possibly look for a common therapeutic strategy for the treatment of these maladies by designing generic amyloid inhibitors. [ABSTRACT FROM AUTHOR]

Published

2023

29. Interactome of Long Non-Coding RNAs: Transcriptomic Expression Patterns and Shaping Cancer Cell Phenotypes.

Author

DeSouza, Nicole R., Quaranto, Danielle, Carnazza, Michelle, Jarboe, Tara, Tiwari, Raj K., and Geliebter, Jan

Subjects

*GENE expression, *LINCRNA, *PHENOTYPES, *CELL morphology, *CANCER cells, *MOLECULAR recognition

Abstract

RNA biology has gained extensive recognition in the last two decades due to the identification of novel transcriptomic elements and molecular functions. Cancer arises, in part, due to the accumulation of mutations that greatly contribute to genomic instability. However, the identification of differential gene expression patterns of wild-type loci has exceeded the boundaries of mutational study and has significantly contributed to the identification of molecular mechanisms that drive carcinogenic transformation. Non-coding RNA molecules have provided a novel avenue of exploration, providing additional routes for evaluating genomic and epigenomic regulation. Of particular focus, long non-coding RNA molecule expression has been demonstrated to govern and direct cellular activity, thus evidencing a correlation between aberrant long non-coding RNA expression and the pathological transformation of cells. lncRNA classification, structure, function, and therapeutic utilization have expanded cancer studies and molecular targeting, and understanding the lncRNA interactome aids in defining the unique transcriptomic signatures of cancer cell phenotypes. [ABSTRACT FROM AUTHOR]

Published

2023

30. Transcriptomic changes in liver transplant recipients with nonalcoholic steatohepatitis indicate dysregulation of wound healing.

Author

Pellegrina, Diogo, Prayitno, Khairunnadiya, Azhie, Amirhossein, Pasini, Elisa, Baciu, Cristina, Fischer, Sandra, Reimand, Jüri, and Bhat, Mamatha

Subjects

WOUND healing, LIVER transplantation, NON-alcoholic fatty liver disease, TRANSCRIPTOMES, COMPUTATIONAL biology

Abstract

Background: Non-alcoholic steatohepatitis (NASH) has become a leading indication for liver transplantation. However, it often recurs in the graft and can also arise de novo in individuals transplanted for other indications. Posttransplant NASH (PT-NASH) is more aggressive and leads to accelerated fibrosis. The mechanistic basis of PT-NASH has not yet been defined and no specific therapeutic strategies are currently available. Methods: Here, we profiled the transcriptomes of livers with PT-NASH from liver transplant recipients to identify dysregulated genes, pathways, and molecular interaction networks. Results: Transcriptomic changes in the PI3K-Akt pathway were observed in association with metabolic alterations in PT-NASH. Other significant changes in gene expression were associated with DNA replication, cell cycle, extracellular matrix organization, and wound healing. A systematic comparison with nontransplant NASH (NT-NASH) liver transcriptomes indicated an increased activation of wound healing and angiogenesis pathways in the post-transplant condition. Conclusion: Beyond altered lipid metabolism, dysregulation of wound healing and tissue repair mechanisms may contribute to the accelerated development of fibrosis associated with PT-NASH. This presents an attractive therapeutic avenue to explore for PT-NASH to optimize the benefit and survival of the graft. [ABSTRACT FROM AUTHOR]

Published

2023

31. Roles of four targets in the pathogenesis of graves' orbitopathy

Author

Ziqiang Ren, Hailing Zhang, Haiwen Yu, Xiqiang Zhu, and Jian Lin

Subjects

Graves' orbitopathy, Disease pathogenesis, Interleukin-23 receptor, Leptin receptor, Orbital fibroblast activating factors, Plasminogen activator inhibitor-1, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Graves' orbitopathy (GO) is an autoimmune disease that involves complex immune systems. The mainstays of clinical management for this disease are surgery, targeted drugs therapy, and no-targeted drugs drug therapy. targeted drugs can improve therapeutic efficacy and enhance the quality of life for GO patients. However, as a second-line treatment for GO, targeted drugs such as tocilizumab and rituximab have very limited therapeutic effects and may be accompanied by side effects. The introduction of Teprotumumab, which targets IGF-IR, has made significant progress in the clinical management of GO. The pathophysiology of GO still remains uncertain as it involves a variety of immune cells and fibroblast interactions as well as immune responses to relevant disease targets of action. Therfore, learning more about immune response feedback pathways and potential targets of action will assist in the treatment of GO. In this discussion, we explore the pathogenesis of GO and relevant work, and highlight four potential targets for GO: Interleukin-23 receptor (IL-23 R), Leptin receptor (LepR), Orbital fibroblast activating factors, and Plasminogen activator inhibitor-1 (PAI-1). A deeper understanding of the pathogenesis of GO and the role of potential target signaling pathways is crucial for effective treatment of this disease.

Published

2023

32. The Role of Biomarkers in Keratoconus Pathogenesis and Diagnosis

Author

D’Souza, Sharon, Dickman, Mor M., Shetty, Rohit, Armia, Ashraf, editor, and Mazzotta, Cosimo, editor

Published

2022

33. Transcriptomic changes in liver transplant recipients with non-alcoholic steatohepatitis indicate dysregulation of wound healing

Author

Diogo Pellegrina, Khairunnadiya Prayitno, Amirhossein Azhie, Elisa Pasini, Cristina Baciu, Sandra Fischer, Jüri Reimand, and Mamatha Bhat

Subjects

liver transplantation, non-alcoholic fatty liver disease, non-alcoholic steatohepatitis, disease pathogenesis, fibrosis, wound healing, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

BackgroundNon-alcoholic steatohepatitis (NASH) has become a leading indication for liver transplantation. However, it often recurs in the graft and can also arise de novo in individuals transplanted for other indications. Post-transplant NASH (PT-NASH) is more aggressive and leads to accelerated fibrosis. The mechanistic basis of PT-NASH has not yet been defined and no specific therapeutic strategies are currently available.MethodsHere, we profiled the transcriptomes of livers with PT-NASH from liver transplant recipients to identify dysregulated genes, pathways, and molecular interaction networks.ResultsTranscriptomic changes in the PI3K-Akt pathway were observed in association with metabolic alterations in PT-NASH. Other significant changes in gene expression were associated with DNA replication, cell cycle, extracellular matrix organization, and wound healing. A systematic comparison with non-transplant NASH (NT-NASH) liver transcriptomes indicated an increased activation of wound healing and angiogenesis pathways in the post-transplant condition.ConclusionBeyond altered lipid metabolism, dysregulation of wound healing and tissue repair mechanisms may contribute to the accelerated development of fibrosis associated with PT-NASH. This presents an attractive therapeutic avenue to explore for PT-NASH to optimize the benefit and survival of the graft.

Published

2023

34. The Genetics of Primary Biliary Cholangitis: A GWAS and Post-GWAS Update.

Author

Hitomi, Yuki and Nakamura, Minoru

Subjects

*GENETICS, *INTRAHEPATIC bile ducts, *HLA histocompatibility antigens, *CHOLANGITIS, *GENOME-wide association studies, *B cells

Abstract

Primary biliary cholangitis (PBC) is a chronic, progressive cholestatic liver disease in which the small intrahepatic bile ducts are destroyed by autoimmune reactions. Among autoimmune diseases, which are polygenic complex traits caused by the combined contribution of genetic and environmental factors, PBC exhibits the strongest involvement of genetic heritability in disease development. As at December 2022, genome-wide association studies (GWASs) and associated meta-analyses identified approximately 70 PBC susceptibility gene loci in various populations, including those of European and East Asian descent. However, the molecular mechanisms through which these susceptibility loci affect the pathogenesis of PBC are not fully understood. This study provides an overview of current data regarding the genetic factors of PBC as well as post-GWAS approaches to identifying primary functional variants and effector genes in disease-susceptibility loci. Possible mechanisms of these genetic factors in the development of PBC are also discussed, focusing on four major disease pathways identified by in silico gene set analyses, namely, (1) antigen presentation by human leukocyte antigens, (2) interleukin-12-related pathways, (3) cellular responses to tumor necrosis factor, and (4) B cell activation, maturation, and differentiation pathways. [ABSTRACT FROM AUTHOR]

Published

2023

35. MicroRNA-mediated regulation of Ferroptosis: Implications for disease pathogenesis and therapeutic interventions.

Author

Razi, Shokufeh, Khojini, Javad Yaghmoorian, Norioun, Hamid, Hayati, Mohammad Javad, Naseri, Nasim, Tajbaksh, Amir, and Gheibihayat, Seyed Mohammad

Subjects

*IRON metabolism, *ENDOENZYMES, *PATHOLOGY, *LIPID metabolism, *REACTIVE oxygen species

Abstract

Ferroptosis, a form of iron-dependent regulated cell death, is characterized by the accumulation of lipid peroxides and distinctive morphological features. Moreover, the reduction of intracellular antioxidant enzyme expression or activity, specifically glutathione peroxidase 4 (GPX4) results in activation of the endogenous pathway of ferroptosis. In this review, we aimed to explore the intricate interplay between microRNAs (miRNAs) and ferroptosis, shedding light on its implications in various disease pathologies. This review delves into the role of miRNAs in modulating key regulators of ferroptosis, including genes involved in iron metabolism, lipid peroxidation, and antioxidant defenses. Furthermore, the potential of targeting miRNAs for therapeutic interventions in ferroptosis-related diseases, such as cancer, neurodegenerative disorders, and ischemia/reperfusion injury, is highlighted. [Display omitted] • MicroRNAs play a crucial role in regulating ferroptosis, a form of iron-dependent regulated cell death. • MiRNAs modulate key regulators of ferroptosis, including genes involved in iron metabolism, lipid peroxidation, and antioxidant defenses. • The complex interplay between miRNAs and ferroptosis has implications for disease pathogenesis and potential therapeutic interventions. • Certain miRNAs have been shown to increase the sensitivity of cancer cells to ferroptosis inducers, potentially influencing chemosensitivity. [ABSTRACT FROM AUTHOR]

Published

2025

36. IgG Antibody Responses to Epstein-Barr Virus in Myalgic Encephalomyelitis/Chronic Fatigue Syndrome: Their Effective Potential for Disease Diagnosis and Pathological Antigenic Mimicry

Author

André Fonseca, Mateusz Szysz, Hoang Thien Ly, Clara Cordeiro, and Nuno Sepúlveda

Subjects

biomarker discovery, disease pathogenesis, autoimmunity, antigenic mimicry, machine learning, Medicine (General), R5-920

Abstract

Background and Objectives: The diagnosis and pathology of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) remain under debate. However, there is a growing body of evidence for an autoimmune component in ME/CFS caused by the Epstein-Barr virus (EBV) and other viral infections. Materials and Methods: In this work, we analyzed a large public dataset on the IgG antibodies to 3054 EBV peptides to understand whether these immune responses could help diagnose patients and trigger pathological autoimmunity; we used healthy controls (HCs) as a comparator cohort. Subsequently, we aimed at predicting the disease status of the study participants using a super learner algorithm targeting an accuracy of 85% when splitting data into train and test datasets. Results: When we compared the data of all ME/CFS patients or the data of a subgroup of those patients with non-infectious or unknown disease triggers to the data of the HC, we could not find an antibody-based classifier that would meet the desired accuracy in the test dataset. However, we could identify a 26-antibody classifier that could distinguish ME/CFS patients with an infectious disease trigger from the HCs with 100% and 90% accuracies in the train and test sets, respectively. We finally performed a bioinformatic analysis of the EBV peptides associated with these 26 antibodies. We found no correlation between the importance metric of the selected antibodies in the classifier and the maximal sequence homology between human proteins and each EBV peptide recognized by these antibodies. Conclusions: In conclusion, these 26 antibodies against EBV have an effective potential for disease diagnosis in a subset of patients. However, the peptides associated with these antibodies are less likely to induce autoimmune B-cell responses that could explain the pathogenesis of ME/CFS.

Published

2024

37. LRTCLS: low-rank tensor completion with Laplacian smoothing regularization for unveiling the post-transcriptional machinery of N6-methylation (m6A)-mediated diseases.

Author

Ma, Jiani, Liu, Hui, Mao, Yumeng, and Zhang, Lin

Subjects

*CIRCULAR RNA, *ALTERNATIVE RNA splicing, *NON-small-cell lung carcinoma, *COVID-19, *RNA-binding proteins

Abstract

Recently, N 6-methylation (m6A) has recently become a hot topic due to its key role in disease pathogenesis. Identifying disease-related m6A sites aids in the understanding of the molecular mechanisms and biosynthetic pathways underlying m6A-mediated diseases. Existing methods treat it primarily as a binary classification issue, focusing solely on whether an m6A–disease association exists or not. Although they achieved good results, they all shared one common flaw: they ignored the post-transcriptional regulation events during disease pathogenesis, which makes biological interpretation unsatisfactory. Thus, accurate and explainable computational models are required to unveil the post-transcriptional regulation mechanisms of disease pathogenesis mediated by m6A modification, rather than simply inferring whether the m6A sites cause disease or not. Emerging laboratory experiments have revealed the interactions between m6A and other post-transcriptional regulation events, such as circular RNA (circRNA) targeting, microRNA (miRNA) targeting, RNA-binding protein binding and alternative splicing events, etc. present a diverse landscape during tumorigenesis. Based on these findings, we proposed a low-rank tensor completion-based method to infer disease-related m6A sites from a biological standpoint, which can further aid in specifying the post-transcriptional machinery of disease pathogenesis. It is so exciting that our biological analysis results show that Coronavirus disease 2019 may play a role in an m6A- and miRNA-dependent manner in inducing non-small cell lung cancer. [ABSTRACT FROM AUTHOR]

Published

2022

38. Breaking Bad: Inflammasome Activation by Respiratory Viruses

Author

Julia A. Cerato, Emanuelle F. da Silva, and Barbara N. Porto

Subjects

respiratory virus, inflammasome, virus infection, antiviral response, disease pathogenesis, Biology (General), QH301-705.5

Abstract

The nucleotide-binding domain leucine-rich repeat-containing receptor (NLR) family is a group of intracellular sensors activated in response to harmful stimuli, such as invading pathogens. Some NLR family members form large multiprotein complexes known as inflammasomes, acting as a platform for activating the caspase-1-induced canonical inflammatory pathway. The canonical inflammasome pathway triggers the secretion of the pro-inflammatory cytokines interleukin (IL)-1β and IL-18 by the rapid rupture of the plasma cell membrane, subsequently causing an inflammatory cell death program known as pyroptosis, thereby halting viral replication and removing infected cells. Recent studies have highlighted the importance of inflammasome activation in the response against respiratory viral infections, such as influenza and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). While inflammasome activity can contribute to the resolution of respiratory virus infections, dysregulated inflammasome activity can also exacerbate immunopathology, leading to tissue damage and hyperinflammation. In this review, we summarize how different respiratory viruses trigger inflammasome pathways and what harmful effects the inflammasome exerts along with its antiviral immune response during viral infection in the lungs. By understanding the crosstalk between invading pathogens and inflammasome regulation, new therapeutic strategies can be exploited to improve the outcomes of respiratory viral infections.

Published

2023

39. Realization of Amyloid-like Aggregation as a Common Cause for Pathogenesis in Diseases

Author

Soumick Naskar and Nidhi Gour

Subjects

amyloid, aggregation, self-assembly, gene mutation, disease pathogenesis, inborn errors of metabolism, Science

Abstract

Amyloids were conventionally referred to as extracellular and intracellular accumulation of Aβ42 peptide, which causes the formation of plaques and neurofibrillary tangles inside the brain leading to the pathogenesis in Alzheimer’s disease. Subsequently, amyloid-like deposition was found in the etiology of prion diseases, Parkinson’s disease, type II diabetes, and cancer, which was attributed to the aggregation of prion protein, α-Synuclein, islet amyloid polypeptide protein, and p53 protein, respectively. Hence, traditionally amyloids were considered aggregates formed exclusively by proteins or peptides. However, since the last decade, it has been discovered that other metabolites, like single amino acids, nucleobases, lipids, glucose derivatives, etc., have a propensity to form amyloid-like toxic assemblies. Several studies suggest direct implications of these metabolite assemblies in the patho-physiology of various inborn errors of metabolisms like phenylketonuria, tyrosinemia, cystinuria, and Gaucher’s disease, to name a few. In this review, we present a comprehensive literature overview that suggests amyloid-like structure formation as a common phenomenon for disease progression and pathogenesis in multiple syndromes. The review is devoted to providing readers with a broad knowledge of the structure, mode of formation, propagation, and transmission of different extracellular amyloids and their implications in the pathogenesis of diseases. We strongly believe a review on this topic is urgently required to create awareness about the understanding of the fundamental molecular mechanism behind the origin of diseases from an amyloid perspective and possibly look for a common therapeutic strategy for the treatment of these maladies by designing generic amyloid inhibitors.

Published

2023

40. Editorial: Multi-Omics Study on Gut Microbiota Related to Faecal Microbiota Transplantation

Author

Jingtong Wu, Leyi Wang, Yanling Wei, Jialiang Yang, Zeyou Chen, Pei Hao, Yinyin Lv, Min Wang, Feng Liao, Longgang Chang, Yanmin Liu, and Zhangran Chen

Subjects

gut microbiota, faecal microbiota transplantation, probiotics, disease pathogenesis, COVID-19, metabolic disorders, Microbiology, QR1-502

Published

2022

41. Insights Into the Role of the Lung Virome During Respiratory Viral Infections.

Author

Porto, Bárbara N.

Subjects

VIRUS diseases, RESPIRATORY infections, LATENT infection, LUNGS, LUNG diseases

Abstract

The virome constitutes the viral component of the microbiome and it consists of the genomes of all the viruses that inhabit a particular region of the human body, including those that cause acute, persistent or latent infection, and retroviral elements integrated to host chromosomes. The human virome is composed by eukaryotic viruses, bacteriophages and archaeal viruses. The understanding of the virome composition and role on human health has been delayed by the absence of specific tools and techniques to accurately characterize viruses. However, more recently, advanced methods for viral diagnostics, such as deep sequencing and metagenomics, have allowed a better understanding of the diverse viral species present in the human body. Previous studies have shown that the respiratory virome modulates the host immunity and that, since childhood, the human lung is populated by viruses for whom there is no disease association. Whether these viruses are potentially pathogenic and the reason for their persistence remain elusive. Increased respiratory viral load can cause exacerbation of chronic pulmonary diseases, including COPD, cystic fibrosis, and asthma. Moreover, the presence of resident viral populations may contribute to the pathogenesis of community-acquired respiratory virus infections. In this mini review, I will discuss the recent progress on our understanding of the human lung virome and summarize the up-to-date knowledge on the relationships among community-acquired respiratory viruses, the lung virome and the immune response to better understand disease pathophysiology and the factors that may lead to viral persistence. [ABSTRACT FROM AUTHOR]

Published

2022

42. The contribution of T cell-derived cytokines and proteases to chronic inflammation in the human intestine

Author

Biancheri, Paolo

Subjects

616.3, Crohn's disease, ulcerative colitis, inflammatory bowel disease, disease pathogenesis

Abstract

This Thesis explores aspects of disease pathogenesis in Crohn's disease (CD) and ulcerative colitis (UC), investigates mechanisms of responsiveness to biologic treatment in inflammatory bowel disease (IBD), and describes the clinical and immunologic phenotype associated with a homozygous deletion in a disintegrin and a metalloproteinase (ADAM)17 gene. The role of interleukin (IL)-17A, IL-17E and IL-13 in human intestinal inflammation is not clear. IL-13 plays an important role in experimental colitis and in intestinal experimental fibrosis. However, contrasting observations exist on the levels and the role of IL-13 in inflamed IBD mucosa, and limited information is available on the role of IL-13 in CD intestinal fibrosis. We observed that IL-13 is not up-regulated in UC intestinal mucosa, and that it is unlikely to play a functional role in the mucosal pro-inflammatory response in the majority of patients with UC. Conversely, IL-17A is up-regulated in fibrostenosing CD intestine, and may contribute to intestinal fibrosis in CD. Our results indicate that IL-17E and IL-13 are not up-regulated in CD intestinal strictures, and are unlikely to play a role in intestinal fibrosis in CD. A considerable proportion of IBD patients do not respond to anti-tumour necrosis factor (TNF)- agents. Anti-TNF- agents exert their action in inflamed tissues, rich in matrix metalloproteinase (MMP)-3 and MMP-12, which in turn can degrade immunoglobulin (Ig)G1. We observed that MMP-3, MMP-12, and protein extracts from inflamed IBD mucosa, but not MMP-9, degrade the anti-TNF- agents infliximab, adalimumab and etanercept, however etanercept shows a higher susceptibility than infliximab and adalimumab. We also observed that a subgroup of IBD patients who did not respond to anti-TNF- agents have particularly high serum levels of MMP-3-/MMP-12-cleaved endogenous IgG and anti-hinge autoantibodies compared to IBD patients who subsequently responded to biologic therapy. 8 Finally, we observed that homozygous deletion in ADAM17 in humans is associated with a complex, neonatal-onset, multi-organ syndrome affecting mainly the skin, the intestine, and the cardiovascular system. In this condition, ADAM17 expression is down-regulated in the skin and in the duodenum, and soluble TNF- release by peripheral blood mononuclear cells (PBMCs) is substantially impaired. These results underline the heterogeneity characterising chronic intestinal inflammation, and may form the basis for subsequent studies with the aim to identify accurate serum biomarkers of disease progression and responsiveness to biologic therapy, and ultimately to develop effective strategies of patient stratification in IBD.

Published

2016

43. Immunopathogenesis of oral submucous fibrosis by chewing the areca nut.

Author

Wang, Liping and Tang, Zhangui

Subjects

ORAL submucous fibrosis, BETEL nut, ORAL mucosa diseases, MASTICATION, LANGERHANS cells, IMMUNOLOGIC diseases, LANGERHANS-cell histiocytosis

Abstract

Oral submucous fibrosis (OSF) is a chronic, progressive, scarring, and premalignant disease of the oral mucosa. Its pathogenic factors are complex and include chewing areca nuts or other spicy food items, nutrition, and genetic and immune factors. Recently, immune factors have become the focus of medical research, with increased attention being paid to the role of immune regulation in diseases, particularly tumors. OSF is accompanied by obvious changes in the immune microenvironment. The aim of this review is to discuss the potential relationship of OSF and areca nuts genetic with the immune system, including lymphocytes, macrophage, Langerhans cell, mast cell, and substances released by activated immune cells, to determine the pathogenesis and treatment of OSF from an immunologic viewpoint. [ABSTRACT FROM AUTHOR]

Published

2022

44. Insights Into the Role of the Lung Virome During Respiratory Viral Infections

Author

Bárbara N. Porto

Subjects

lung virome, microbiome, respiratory virus, virus infection, disease pathogenesis, Immunologic diseases. Allergy, RC581-607

Abstract

The virome constitutes the viral component of the microbiome and it consists of the genomes of all the viruses that inhabit a particular region of the human body, including those that cause acute, persistent or latent infection, and retroviral elements integrated to host chromosomes. The human virome is composed by eukaryotic viruses, bacteriophages and archaeal viruses. The understanding of the virome composition and role on human health has been delayed by the absence of specific tools and techniques to accurately characterize viruses. However, more recently, advanced methods for viral diagnostics, such as deep sequencing and metagenomics, have allowed a better understanding of the diverse viral species present in the human body. Previous studies have shown that the respiratory virome modulates the host immunity and that, since childhood, the human lung is populated by viruses for whom there is no disease association. Whether these viruses are potentially pathogenic and the reason for their persistence remain elusive. Increased respiratory viral load can cause exacerbation of chronic pulmonary diseases, including COPD, cystic fibrosis, and asthma. Moreover, the presence of resident viral populations may contribute to the pathogenesis of community-acquired respiratory virus infections. In this mini review, I will discuss the recent progress on our understanding of the human lung virome and summarize the up-to-date knowledge on the relationships among community-acquired respiratory viruses, the lung virome and the immune response to better understand disease pathophysiology and the factors that may lead to viral persistence.

Published

2022

45. Viral Infections and the Glutathione Peroxidase Family: Mechanisms of Disease Development.

Author

Lu Q, Ding Y, Liu W, and Liu S

Abstract

Significance: The glutathione peroxidase (GPx) family is recognized for its essential function in maintaining cellular redox balance and countering the overproduction of reactive oxygen species (ROS), a process intricately linked to the progression of various diseases including those spurred by viral infections. The modulation of GPx activity by viruses presents a critical juncture in disease pathogenesis, influencing cellular responses and the trajectory of infection-induced diseases. Recent Advances: Cutting-edge research has unveiled the GPx family's dynamic role in modulating viral pathogenesis. Notably, GPX4's pivotal function in regulating ferroptosis presents a novel avenue for the antiviral therapy. The discovery that selenium, an essential micronutrient for GPx activity, possesses antiviral properties has propelled us toward rethinking traditional treatment modalities. Critical Issues: Deciphering the intricate relationship between viral infections and GPx family members is paramount. Viral invasion can precipitate significant alterations in GPx function, influencing disease outcomes. The multifaceted nature of GPx activity during viral infections suggests that a deeper understanding of these interactions could yield novel insights into disease mechanisms, diagnostics, prognostics, and even chemotherapeutic resistance. Future Directions: This review aims to synthesize current knowledge on the impact of viral infections on GPx activity and expression and identify key advances. By elucidating the mechanisms through which GPx family members intersect with viral pathogenesis, we propose to uncover innovative therapeutic strategies that leverage the antioxidant properties of GPx to combat viral infections. The exploration of GPx as a therapeutic target and biomarker holds promise for the development of next-generation antiviral therapies. Antioxid. Redox Signal. 00, 000-000.

Published

2024

46. Neutrophil plasticity in liver diseases.

Author

Teo JMN, Chen W, and Ling GS

Abstract

The liver has critical digestive, metabolic, and immunosurveillance roles, which get disrupted during liver diseases such as viral hepatitis, fatty liver disease, and hepatocellular carcinoma. While previous research on the pathological development of these diseases has focused on liver-resident immune populations, such as Kupffer cells, infiltrating immune cells responding to pathogens and disease also play crucial roles. Neutrophils are one such key population contributing to hepatic inflammation and disease progression. Belonging to the initial waves of immune response to threats, neutrophils suppress bacterial and viral spread during acute infections, and have homeostasis-restoring functions. Whereas during chronic insults, they display their plastic nature by responding to the inflammatory environment and develop new phenotypes alongside longer lifespans. This review summarizes the diversity in neutrophil function and subpopulations present at steady state, during liver disease, and during liver cancer., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Leukocyte Biology. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

47. A Systematic Review on Biomarkers: Are There Reliable Molecular Biomarkers in Patients With Rheumatoid Arthritis-Associated Interstitial Lung Disease?

Author

Lira ST, Costa MR, Gonçalves Barros WR, and Gonçalves Junior J

Abstract

Despite advances in the study of rheumatoid arthritis-associated interstitial lung disease (RA-ILD), the pulmonary manifestation remains an important cause of morbidity and mortality. However, there is a lack of biochemical markers for this manifestation in the literature. Therefore, the objective of this study was to carry out a qualitative systematic review on biochemical markers associated with RA-ILD in the PubMed, Web of Science, Embase, Cochrane Library, and Virtual Health Library (VHL) between January 2015 and July 2024, using the following descriptors: #1 "biomarkers" (MeSH) AND #2 "rheumatoid arthritis" (MeSH) AND #3 "Lung Diseases, Interstitial" (MeSH). Of the 1497 articles found, 27 presented eligibility criteria. The findings were divided into three sessions: "Main biomarkers for RA-ILD," "Other biomarkers for RA-ILD activity," and "Other biomarkers for RA-ILD prognosis." Among the evaluated markers, KL-6, RF, ACPA, ESR, and CRP appear to have prognostic value and association with damage in patients with RA-ILD. The association of some molecules such as sPD-1, sCD25, VCAM-1, MCP-1, and ADMA with tissue damage is intriguing. Longitudinal and randomized studies are imperative to comprehensively delineate the history of RA-ILD and evaluate potential serum biomarkers., Competing Interests: Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: All authors have declared that they have no financial relationships at present or within the previous three years with any organizations that might have an interest in the submitted work. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Lira et al.)

Published

2024

48. Endometriosis: A Comprehensive Exploration of Inflammatory Mechanisms and Fertility Implications.

Author

Rathod S, Shanoo A, and Acharya N

Abstract

Endometriosis is a prevalent gynecological disorder characterized by the ectopic growth of endometrial-like tissue outside the uterus. This condition poses significant challenges due to its chronic nature, debilitating symptoms such as pelvic pain and infertility, and substantial impact on quality of life. Central to the pathogenesis of endometriosis are inflammatory mechanisms that perpetuate tissue proliferation, adhesion formation, and immune dysregulation within the pelvic cavity. Inflammation plays a pivotal role in the development and progression of endometriosis, influencing the severity of symptoms and complications associated with the disease. Dysregulated immune responses contribute to the persistence of ectopic endometrial implants, exacerbating pelvic pain and other symptoms experienced by affected individuals. Moreover, the inflammatory milieu created by endometriotic lesions disrupts normal ovarian function, impairs follicular development, and compromises reproductive outcomes, thereby posing challenges to fertility. This review comprehensively explores the inflammatory mechanisms underlying endometriosis and their implications for fertility. Synthesizing current research and clinical insights elucidates the intricate interplay between inflammation, disease progression, and reproductive health outcomes. Understanding these complex interactions is essential for developing targeted diagnostic strategies and optimizing therapeutic approaches tailored to alleviate symptoms and improve fertility outcomes in individuals with endometriosis. Ultimately, this review aims to enhance the understanding of endometriosis pathophysiology, inform clinical practice, and stimulate further research to advance personalized care and management strategies for this challenging condition., Competing Interests: Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: All authors have declared that they have no financial relationships at present or within the previous three years with any organizations that might have an interest in the submitted work. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Rathod et al.)

Published

2024

49. Increased Protein Citrullination as a Trigger for Resident Immune System Activation, Intraretinal Inflammation, and Promotion of Anti-retinal Autoimmunity: Intersecting Paths in Retinal Degenerations of Potential Therapeutic Relevance

Author

Iannaccone, Alessandro, Radic, Marko Z., Crusio, Wim E., Series Editor, Lambris, John D., Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Bowes Rickman, Catherine, editor, Grimm, Christian, editor, Anderson, Robert E., editor, Ash, John D., editor, LaVail, Matthew M., editor, and Hollyfield, Joe G., editor

Published

2019

50. A review of acute pancreatitis in the era of COVID-19.

Author

Urooj, Chaman, Jagani, Sumit, and Kirkham, Sian

Subjects

PANCREATITIS diagnosis, PANCREATITIS treatment, PANCREATITIS, ACUTE diseases, COVID-19 pandemic, CHILDREN, ADULTS

Abstract

Acute pancreatitis is uncommon in childhood with an estimated incidence of approximately 1 in 10,000 children per year. It is an important condition, which may escape prompt diagnosis and is associated with significant morbidity and mortality. Most often, it will result in an acute hospital admission. The course of this disease is unpredictable and ranges from self-resolving mild illness to significantly severe disease with high risk of mortality or complications due to progression to multiorgan failure. Considerable advances have occurred in management which is now focused on multidisciplinary approach with extensive investigation and minimally invasive endoscopic interventions resulting in improved prognosis. In recent years, incidence of acute pancreatitis in children has risen, either due to improved awareness or reflective of true rise. Since 2020 there are emerging data suggesting an association of COVID-19 with acute pancreatitis. The best approach to diagnosis and management of acute pancreatitis in children and young people is largely extrapolated from adult practice. This review presents a brief summary of normal physiology and pathophysiology relating to pancreatitis, a suggested approach to investigation and diagnosis and summarizes available evidence to inform management in children and young people. We will also explore the latest data collected linking COVID-19 to pancreatitis. [ABSTRACT FROM AUTHOR]

Published

2021