Structure-guided engineering of biased-agonism in the human niacin receptor via single amino acid substitution.

The Hydroxycarboxylic acid receptor 2 (HCA2), also known as the niacin receptor or GPR109A, is a prototypical GPCR that plays a central role in the inhibition of lipolytic and atherogenic activities. Its activation also results in vasodilation that is linked to the side-effect of flushing associated with dyslipidemia drugs such as niacin. GPR109A continues to be a target for developing potential therapeutics in dyslipidemia with minimized flushing response. Here, we present cryo-EM structures of the GPR109A in complex with dyslipidemia drugs, niacin or acipimox, non-flushing agonists, MK6892 or GSK256073, and recently approved psoriasis drug, monomethyl fumarate (MMF). These structures elucidate the binding mechanism of agonists, molecular basis of receptor activation, and insights into biased signaling elicited by some of the agonists. The structural framework also allows us to engineer receptor mutants that exhibit G-protein signaling bias, and therefore, our study may help in structure-guided drug discovery efforts targeting this receptor.

Molecular basis of anaphylatoxin binding, activation, and signaling bias at complement receptors.

The complement system is a critical part of our innate immune response, and the terminal products of this cascade, anaphylatoxins C3a and C5a, exert their physiological and pathophysiological responses primarily via two GPCRs, C3aR and C5aR1. However, the molecular mechanism of ligand recognition, activation, and signaling bias of these receptors remains mostly elusive. Here, we present nine cryo-EM structures of C3aR and C5aR1 activated by their natural and synthetic agonists, which reveal distinct binding pocket topologies of complement anaphylatoxins and provide key insights into receptor activation and transducer coupling. We also uncover the structural basis of a naturally occurring mechanism to dampen the inflammatory response of C5a via proteolytic cleavage of the terminal arginine and the G-protein signaling bias elicited by a peptide agonist of C3aR identified here. In summary, our study elucidates the innerworkings of the complement anaphylatoxin receptors and should facilitate structure-guided drug discovery to target these receptors in a spectrum of disorders.

Compulsive buying behavior and its association with emotional distress, depression, and impulsivity in general population: an online survey.

BACKGROUND: Compulsive buying behavior or pathological buying is increasingly being recognized as a psychiatric disorder, and various psychosocial factors have been proposed to contribute to this problem. This study aimed to identify the association between compulsive buying behavior, stress, anxiety, depression, and impulsivity. METHODS: This cross-sectional, online survey used Google Forms to collect sociodemographic and clinical details of the participants between June 2021 and August 2021. In addition, they were evaluated on Pathological Buying Screener, Depression, Anxiety and Stress Scale - 21 (DASS-21), and Barratt Impulsiveness Scale - Brief (BIS-Brief). RESULTS: Out of 426 participants with valid responses, 169 (39.7%) qualified for pathological buying. The participant groups "with" and "without" pathological buying were comparable on sociodemographic characteristics, the preferred mode of shopping, and daily Internet use duration. Those "with" pathological buying scored significantly higher on DASS-21 and BIS-Brief. Both DASS-21 and BIS-Brief scores were predictors of pathological buying scores. CONCLUSIONS: There is a significant association between pathological buying, psychological distress, and impulsivity.

Interaction between peritumoral reactivity and histomorphological pattern of lymph node reactivity in oral squamous cell carcinoma: A host immune status indicator.

Background: The invasive tumor front (ITF) of oral squamous cell carcinoma (OSCC) and the reactive changes in regional lymph nodes (RLNs) are believed to carry integral prognostic information about the tumor's invasive capacity and insight into host immune response, respectively. Aim: This study aims to evaluate the reactivity patterns of RLNs in relation to the tumor stage, grade and various histopathological parameters at the ITF of primary tumor, in an attempt to elucidate the nature of host-immune response to tumor. Materials and Methods: Pattern of invasion (POI) using Bryne's criteria, peritumoral inflammation, and status of connective tissue (CT) stroma of 50 OSCC cases, that underwent selective neck dissection were assessed at the ITF. Immunoreactivity patterns in corresponding 450 RLNs were assessed as proposed by Tsakraklides and Ioachim. Further, 97 metastatic lymph nodes (LNs) were evaluated for degree and pattern of tumor invasion. The datasets were subjected to the Chi-square analysis. Results: There was statistically significant association (P = 0.001) of Type III and Type IV POI as well as mild peritumoral inflammation (P = 0.024) with the advanced stages of OSCC as compared to early stages. Significant association was observed between LN reactivity pattern and tumor stage (P = 0.05), with metastatic nodes exhibiting germinal center predominance (97.9%) and lymphocyte predominance (69.1%) largely observed in nonmetastatic nodes. Majority of metastatic nodes showed Grade 3 invasion (54.7%) in the form of large islands (57.7%), whereas two (2.1%) nodes were totally effaced by tumor metastasis. Statistical significance was observed between CT stroma at ITF and degree of tumor invasion in metastatic LN (P = 0.001). POI also showed significant correlation with peritumoral inflammation (P = 0.002), CT stroma (P = 0.02), and LN reactivity pattern (P = 0.03). Conclusion: This study supports the presence of a strong immunological host-tumor relationship.

Religious coping in the time of COVID-19 Pandemic in India and Nigeria: Finding of a cross-national community survey.

BACKGROUND: Religious and spiritual coping strategies is one of the possible tools that can be used to deal with stress and the negative consequences of life problems and illnesses. The study aims to assess religious coping in the time of the COVID-19 pandemic. METHODOLOGY: It was an online survey. The sample was collected using a snowball sampling technique as the data were collected through Google forms. The survey started on 22 April 2020 and was closed on 28 May 2020. The participants were from two countries, India and Nigeria. The inclusion criteria were age between 18 and 60 years, having completed at least 10 years of formal education, and have internet access. For data collection, Semi-structured proforma (demographic and personal characteristics) and Brief RCOPE was used to see the extent to which individuals engage in positive and negative forms of religious coping. RESULTS: A total of 647 individuals (360 from Nigeria and 287 from India) participated in the survey. A total of 188 (65.5%) participants in India reported no change in their religious activities since they heard about COVID-19, while, 160 (44.4%) in Nigeria reported a decrease in religious activities. Positive religious coping in the Nigerian population was significantly higher than the Indian population. Similarly, negative religious coping was significantly higher (for most of the items in the brief RCOPE) in the Indian population than the Nigerian population. CONCLUSION: Significant percentages of people after the COVID-19 pandemic took religious coping steps to overcome their problems. During this pandemic, positive religious coping among the Indian and Nigerian communities is more prevalent than negative religious coping. There is a substantial cross-national difference between Indians and Nigerians in the religious coping modes.

Cross-sectional study of internalised stigma and medication adherence in patients with obsessive compulsive disorder.

BACKGROUND: Patients suffering from psychiatric disorders tend to stigmatise themselves which had been linked to poor adherence to treatment. AIMS: The aim of the present study was to study internalised stigma and medication adherence and to assess the relationship between them in patients with obsessive compulsive disorder (OCD). METHODS: A cross-sectional study was conducted on 112 patients diagnosed with OCD who were attending the Out-patient's department at Department of Psychiatry of a tertiary care hospital in North India. Internalised stigma and current medication adherence were assessed with Internalized Stigma of Mental Illness Scale (ISMI) and Medication Adherence Rating Scale, respectively. Yale-Brown Obsessive Compulsive Scale was used to assess the current severity of OCD symptoms. Sociodemographic and clinical details were also obtained from the patients by using a semistructured sociodemographic proforma. RESULTS: Most of the patients reported moderate level of internalised stigma with a mean ISMI score of 77.98 (10.82). Most of the patients were compliant while 41.96% reported poor medication adherence. Internalised stigma was negatively correlated with the current medication adherence. Current severity of OCD symptoms also showed a significant positive correlation with internalised stigma and a significant negative correlation with medication adherence. CONCLUSION: High levels of internalised stigma were associated with lower adherence to treatment which suggests that internalised stigma may be a very important factor influencing medication adherence in patients with OCD.

Role of ellagic acid in regulation of apoptosis by modulating novel and atypical PKC in lymphoma bearing mice.

BACKGROUND: Protein kinase C regulates various cellular processes including cell proliferation, cell adhesion, apoptosis, angiogenesis, invasion, and metastasis. Activation of different PKC isozymes results in distinct cellular responses. Novel PKCs are mainly involved in apoptotic process. Atypical PKC subfamily plays a critical role in cell proliferation and apoptosis, cell differentiation and motility. However, Atypical PKCs show contradictory regulation in different tissues or cancer cells. The mechanism of diversified effects is not well explored. Antioxidant ellagic acid shows hepatoprotective, anti-carcinogenic and anti-mutagenic properties. Present study is focused to analyze the effect of ellagic acid on novel and atypical isozymes of PKC in regulation of PKC-mediated apoptosis in liver of lymphoma bearing mice. Implication of ellagic acid treatment to DL mice was analyzed on caspase-3 mediated apoptosis via PKCδ induced activation; and on maintenance of adequate supply of energy during cancer growth. METHODS: 15-20 weeks old adult DL mice were divided into four groups (n=6). Group 2, 3, 4 were treated with different doses of ellagic acid (40 mg/kg, 60 mg/kg and 80 mg/kg bw). The mice were sacrificed after 19 days of treatment and liver was used for study. The effect of ellagic acid was determined on expression of novel and atypical PKC isozymes. Apoptotic potentiality of ellagic acid was checked on activities of caspase-3 and PKCδ in terms of their catalytic fragments. Aerobic glycolysis was monitored by LDH activity, especially activity of LDH A. RESULTS: Ellagic acid treatment caused up regulation of expression of almost all novel and atypical PKC isozymes. Activities of PKCδ and caspase-3 were enhanced by ellagic acid, however activities of total LDH and LDH-A were inhibited. CONCLUSION: The results show that ellagic acid promotes apoptosis in lymphoma bearing mice via novel and atypical PKCs which involves PKCδ induced caspase-3 activation; and inhibition of glycolytic pathway.

Ellagic acid inhibits PKC signaling by improving antioxidant defense system in murine T cell lymphoma.

Antioxidants protect the cells from the damaging effects of reactive oxygen species (ROS). Production of ROS during cellular metabolism is balanced by their removal by antioxidants. Any condition leading to increased levels of ROS results in oxidative stress, which participates in multistage carcinogenesis by causing oxidative DNA damage, mutations in the proto-oncogenes and tumor suppressor genes. Antioxidant defense system is required to overcome the process of carcinogenesis generated by ROS. Antioxidant enzymes are major contributors to endogenous antioxidant defense system. Protein kinase C (PKC) is generally involved in cell proliferation and its over expression leads to abnormal tumor growth. Out of three classes of PKC, classical PKC is mainly involved in cell proliferation and tumor growth. Classical PKC initiates signaling pathway and leads to activation of a number of downstream protein via activation of NF-κB. Therefore any agent which can promotes the endogenous antioxidant defense system should be able to down regulate PKC and NF-κB activation and thus may be useful in reducing cancer progression. To investigate this hypothesis we have tested the effect of antioxidant ellagic acid on antioxidant enzymes and PKC signaling in Dalton's lymphoma bearing (DL) mice. DL mice were treated with three different doses of ellagic acid. The treatment significantly increases the activity and expression of antioxidant enzymes and down regulates the expression of classical isozymes of PKC as well as the activation of NF-κB, indicating that ellagic acid improves antioxidant defense system and PKC signaling via NF-κB which may contribute to its cancer preventive role.

Ellagic acid induces novel and atypical PKC isoforms and promotes caspase-3 dependent apoptosis by blocking energy metabolism.

Antioxidant ellagic acid is a herbal polyphenolic compound shown to possess growth-inhibiting and apoptotic activities in cancer. Protein kinase C (PKC) plays an important role in cell proliferation, apoptosis, and differentiation. Apoptosis of tumor cells is induced by inactivation of glycolytic enzyme of anaerobic metabolism, lactate dehydrogenase (LDH)-A, and by activating apoptotic protein caspase-3 via PKCδ. The present study aims to analyze the role of ellagic acid on regulation of novel and atypical isozymes of PKC to modulate apoptosis and anaerobic metabolism to prevent lymphoma growth as its role on classical PKCs is reported earlier. Expression of novel and atypical isozymes of PKC, activity of PKCδ, expression and activity of caspase-3, and LDH-A have been analyzed. Expression is measured by RT-PCR, activities of PKCδ as level of its catalytic fragment, caspase-3 as level of its p17 fragment, and LDH-A by specific staining. Lymphoma bearing mice were treated with 3 different doses of ellagic acid. The treatment enhanced expression of all novel and atypical PKCs, activity and expression of caspase-3, and activity of PKCδ but decreased activity and expression of LDH-A. Our results suggest that ellagic acid induces apoptosis via novel and atypical PKCs in association with caspase-3 and induces cancer cell death by blocking the energy metabolism.

Mitochondrial alterations and oxidative stress in an acute transient mouse model of muscle degeneration: implications for muscular dystrophy and related muscle pathologies.

Muscular dystrophies (MDs) and inflammatory myopathies (IMs) are debilitating skeletal muscle disorders characterized by common pathological events including myodegeneration and inflammation. However, an experimental model representing both muscle pathologies and displaying most of the distinctive markers has not been characterized. We investigated the cardiotoxin (CTX)-mediated transient acute mouse model of muscle degeneration and compared the cardinal features with human MDs and IMs. The CTX model displayed degeneration, apoptosis, inflammation, loss of sarcolemmal complexes, sarcolemmal disruption, and ultrastructural changes characteristic of human MDs and IMs. Cell death caused by CTX involved calcium influx and mitochondrial damage both in murine C2C12 muscle cells and in mice. Mitochondrial proteomic analysis at the initial phase of degeneration in the model detected lowered expression of 80 mitochondrial proteins including subunits of respiratory complexes, ATP machinery, fatty acid metabolism, and Krebs cycle, which further decreased in expression during the peak degenerative phase. The mass spectrometry (MS) data were supported by enzyme assays, Western blot, and histochemistry. The CTX model also displayed markers of oxidative stress and a lowered glutathione reduced/oxidized ratio (GSH/GSSG) similar to MDs, human myopathies, and neurogenic atrophies. MS analysis identified 6 unique oxidized proteins from Duchenne muscular dystrophy samples (n = 6) (versus controls; n = 6), including two mitochondrial proteins. Interestingly, these mitochondrial proteins were down-regulated in the CTX model thereby linking oxidative stress and mitochondrial dysfunction. We conclude that mitochondrial alterations and oxidative damage significantly contribute to CTX-mediated muscle pathology with implications for human muscle diseases.

Ellagic acid checks lymphoma promotion via regulation of PKC signaling pathway.

Protein Kinase C (PKC) isozymes are key components involved in cell proliferation and their over activation leads to abnormal tumor growth. PKC follows signalling pathway by activation of downstream gene NF-kB and early transcription factor c-Myc. Over activation of NF-kB and c-Myc gene are also linked with unregulated proliferation of cancer cells. Therefore any agent which can inhibit the activation of Protein kinase C, NF-kB and c-Myc may be useful in reducing cancer progression. To investigate this hypothesis we have tested the effect of ellagic acid on these genes in Dalton's lymphoma bearing (DL). The role of ellagic acid was also tested in regulation of tumor suppressor gene Transforming growth factor-ß1 (TGF-ß1). DL mice were treated with three different doses (40, 60 and 80 mg/kg body weight) of ellagic acid. Ascites cells of mice were used for the experiments. Ellagic acid administration to DL mice decreased oxidative stress by reducing lipid peroxidation. Ellagic acid also down regulates the expression of classical isozymes of PKC i.e. PKCα, PKCß, and PKCγ as well as activity of total PKC and NF-kB, indicating its antitumor action. The anticarcinogenic action of ellagic acid was also confirmed by up regulation of TGF-ß1 and down regulation of c-Myc. Lymphoma prevention by ellagic acid is further supported by decrease in cell proliferation, cell viability, ascites fluid accumulation and increase in life span of DL mice. All these findings suggest that ellagic acid prevents the cancer progression by down regulation of PKC signaling pathway leading to cell proliferation.

Anti-carcinogenic action of ellagic acid mediated via modulation of oxidative stress regulated genes in Dalton lymphoma bearing mice.

An elevated level of reactive oxygen species (ROS) in a cancerous condition causes oxidative stress which in turn activates a number of genes, and therefore an interruption in the oxidative microenvironment should be able to inactivate these genes, contributing to cancer prevention. The present work was designed to evaluate the role of ellagic acid in the modulation of protein kinase Cα (PKCα) activity and expression and its correlation with the oncogene, c-Myc, and tumor suppressor gene, transforming growth factor-ß (TGF-ß1), in lymphoma bearing mice. We also evaluated its implication for cell viability. Our results show that ellagic acid leads to down-regulation of the expression and activity of PKCα via decreasing the oxidative stress, measured in terms of lipid peroxidation and protein carbonylation. It also reduces c-Myc expression and improves TGF-ß1 expression besides decreasing cell viability in Dalton lymphoma bearing mice, which supports its anti-carcinogenic action.

Lipid raft heterogeneity: an enigma.

Glycosphingolipids (GSLs) and glycoproteins are ubiquitous components of mammalian cell membranes. GSLs are especially enriched in the nervous system and significantly contribute to membrane organization and a variety of cellular functions. Current body of evidence suggests that GSLs along with cholesterol are enriched in discrete membrane domains that associate specific proteins. Current notion of membrane organization is that, the GSL-cholesterol-enriched membrane domains known as 'lipid rafts' float in the phospholipid-enriched bulk of the membrane and regulate the cell signaling by facilitating the lipid-protein/protein-protein interactions. The sizeable literature accumulated during the last decade has provided some insight into the organization and function of rafts; however, they still remain perplexing. In recent years, an appealing concept of lipid raft heterogeneity has emerged. GSL- and glycosylphosphatidylinositol-anchored proteins are considered as the crucial pivots of heterogeneous rafts. This review deals with the enigma of organizational and functional heterogeneity of lipid rafts and discusses the dynamic coalescence of heterogeneous rafts during signaling that can explain the specificity of raft-regulated cellular signaling events.

Early and dynamic polarization of T cell membrane rafts and constituents prior to TCR stop signals.

Polarization of membrane rafts and signaling proteins to form an immunological synapse is a hallmark of T cell stimulation. However, the kinetics of raft polarization and associated proteins in relation to the initial contact of the T cell with the APC are poorly defined. We addressed this question by measuring the distribution of membrane-targeted fluorescent protein markers during initial T cell interactions with B cell APCs. Experiments with unpulsed B cells lacking cognate Ag demonstrated an MHC class II-independent capping that was specific to membrane raft markers and required actin rearrangements and signals from Src kinases and PI3K. By live cell imaging experiments, we identified a similar specific polarization of membrane raft markers before TCR-dependent stop signals, and which occurred independently of cognate peptide-MHC class II. T cells conjugated to unpulsed B cells exhibited capping of CD4 and microclusters of the TCR zeta-chain, but only the CD4 enrichment was cholesterol dependent. Furthermore, raft association of CD4 was necessary for its efficient targeting to the Ag-independent caps. Interestingly, anergic Vbeta8(+) T cells isolated from staphylococcal enterotoxin B-injected mice did not exhibit Ag-independent capping of membrane rafts, showing that inhibition of these early, Ag-independent events is a property associated with tolerance. Altogether, these data show that membrane raft capping is one of the earliest events in T cell activation and represents one avenue for promoting and regulating downstream peptide-MHC-dependent signaling within the T cell.

Visualization of antigen presentation by actin-mediated targeting of glycolipid-enriched membrane domains to the immune synapse of B cell APCs.

Glycolipid-enriched membrane (GEM) domains, or lipid rafts, function in signaling in immune cells, but their properties during Ag presentation are less clear. To address this question, GEM domains were studied using fluorescence cell imaging of mouse CH27 B cells presenting Ag to D10 T cells. Our experiments showed that APCs were enriched with GEM domains in the immune synapse, and this occurred in an actin-dependent manner. This enrichment was specific to GEM domains, because a marker for non-GEM regions of the membrane was excluded from the immune synapse. Furthermore, fluorescence photobleaching experiments showed that protein in the immune synapse was dynamic and rapidly exchanged with that in other compartments of CH27 cells. To identify the signals for targeting GEM domains to the immune synapse in APCs, capping of the domains was measured in cells after cross-linking surface molecules. This showed that co-cross-linking CD48 with MHC class II was required for efficient capping and intracellular signaling. Capping of GEM domains by co-cross-linking CD48 and MHC class II occurred with co-capping of filamentous actin, and both domain capping and T cell-CH27 cell conjugation were inhibited by pretreating CH27 cells with latrunculin B. Furthermore, disruption of the actin cytoskeleton of the CH27 cells also inhibited formation of a mature immune synapse in those T cells that did conjugate to APCs. Thus, Ag presentation and efficient T cell stimulation occur by an actin-dependent targeting of GEM domains in the APC to the site of T cell engagement.

Glutamate-induced differential mitochondrial response in young and adult rats.

Excitatory amino acid glutamate is involved in neurotransmission in the nervous system but it becomes a potent neurotoxin under variety of conditions. However, the molecular mechanism of excitotoxicity is not known completely. We have studied the influence of glutamate on intracellular calcium and mitochondrial functions in cortical slices from young and adult rats. The slices from both the age groups exhibited comparable intracellular calcium changes upon glutamate stimulation. Glutamate treatment caused a decrease in adenosine 5'-diphosphate/adenosine 5'-triphosphate (ADP/ATP) and an increase in nicotinamide adenine dinucleotide/nicotinamide adenine dinucleotide reduced form (NAD/NADH) ratio in both the age groups but the magnitude and the nature of temporal change was different. Glutamate-induced decrease in ATP/ADP and increase in NAD/NADH ratio was significantly higher in slices from the adult as compared to the young rats. The slices from young rats elicited slightly higher mitochondrial depolarization than adult rats. However, the formation of reactive oxygen species (ROS) and lactate dehydrogenase (LDH) release were significantly higher in adult rats as compared to young rats. Glutamate-induced mitochondrial depolarization, ROS formation and LDH release were highly dependent on the presence of Ca(2+) in the extracellular medium. The treatment of slices with mitochondrial inhibitors rotenone and oligomycin inhibited ROS formation and LDH release substantially. Our results suggest that the glutamate-induced increase in intracellular calcium is not the only factor responsible for neuronal cell death but the mitochondrial functions could be crucial in excitotoxicity.

Liquid-ordered microdomains in lipid rafts and plasma membrane of U-87 MG cells: a time-resolved fluorescence study.

Lipid rafts, the functional microdomains in the cell membrane, are believed to exist as liquid-ordered (Lo) phase domains along with the liquid-disordered (Ld) phase of the bulk of the cell membranes. We have examined the lipid order in model and natural membranes by time-resolved fluorescence of trimethylammonium-1,6-diphenylhexatriene incorporated into the membranes. The lipid phases were discerned by the limiting anisotropy, rotational diffusion rate and distribution of the fluorescence lifetime. In dipalmitoylphosphatidylcholine (DPPC)-cholesterol mixtures the gel phase exhibited higher anisotropy and a two-fold slower rotational diffusion rate of the probe as compared to the Ld phase. On the other hand, the Lo phase exhibited higher limiting anisotropy but a rotational diffusion rate comparable to the Ld phase. The Ld and Lo phases elicited unimodal distribution of lifetimes with distinct mean values and their co-existence in phospholipid-cholesterol mixtures was reflected as a biphasic change in the width of the lifetime distribution. Global analysis of the lifetimes yielded a best fit with two lifetimes which were identical to those observed in single Lo or Ld phases, but their fractional contribution varied with cholesterol concentration. Attributing the shorter and longer lifetime components to the Ld and Lo phases, respectively, the extent of the Lo/Ld phase domains in the membranes was estimated by their fractional contribution to the fluorescence decay. In ternary mixtures of egg PC-gangliosides-cholesterol, the gangliosides induced heterogeneity in the membrane but the Ld phase prevailed. The Lo phase properties were observed only in the presence of cholesterol. Results obtained in the plasma membrane and detergent-resistant membrane fractions (DRMs) isolated from U-87 MG cells revealed that DRMs mainly possess the Lo phase; however, a substantially large proportion of plasma membrane also exists in the Lo phase. Our data show that, besides cholesterol, the membrane proteins play a significant role in the organization of lipid rafts and, furthermore, a considerable amount of heterogeneity is present among the lipid rafts.