Avaliação de compostos polifenólicos da Laguncularia racemosa sobre a atividade enzimática e farmacológica de serino proteases de Crotalus durissus terrificus. /

Costa, Caroline Ramos da Cruz

January 2018

Orientador: Marcos Hikary Toyama / Resumo: A giroxina é a principal serino protease encontrada no veneno total de Crotalus durissus terrificus. As serino proteases de veneno de serpentes são proteínas que apresentam uma grande similaridade estrutural com a trombina humana incluindo a alta conservação do sitio catalítico. Os resμltados já obtidos pelo nosso grupo revelaram a capacidade dos flavonoides glicosilados de Laguncularia racemosa em reduzir de forma significativa a atividade enzimática das trombinas humanas. A identificação destas molécμlas revelou que dois flavonoides glicosilados (quercetina-3-O-arabinosidio (QAra) e quercetina-3-O-ramnosidio (QRham)) respondem pela inibição da trombina (Rodrigues et al., 2015). Sabe-se que a soroterapia antiveneno não consegue neutralizar de forma eficiente a ação farmacológica das serino proteases e consequentemente não é capaz de neutralizar os danos homeostáticos e teciduais. Neste trabalho, uma nova serino protease foi isolada do veneno total de Crotalus durissus terrificus (cdtsp-2) através de quatro estapas de separação, usando a superdex 75 com uma fase móvel de bicarbonato de amônia pH 8, a cdtsp-2 Estas duas frações foram então fracionadas em coluna de troca iônica em DEAE para separação das principais frações e posteriormente fracionadas em CLAE de fase reversa para confirmar o grau de homologia molecular e em todas as etapas cromatográfica foram acompanhadas pelos ensaios enzimáticos em BApNA. A nova serino protease denominada como Cdtsp-2 (Crotalus durissus terr... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Gyroxin is the major serine protease present in Crotalusdurissusterrificus venom. Serine proteases from snake venom are proteins, which exhibit a great structural similarity to hμMan thrombin including the catalytic site conservation. The resμlts already obtained by our group revealed the glycosylated flavonoidsability of Laguncμlariaracemosato significantly reduce the enzymatic activity of hμMan thrombins. The molecμles identification reveals two glycosylated flavonoids (quercetin-3-O-arabinosidiμM (QAra) and quercetin-3-O-rhamnosidiμM(QRham)), which inhibit thrombin (Rodrigues et al., 2015). Antivenomserotherapycan not efficiently neutralize the serine proteases pharmacological action and is not able to neutralize homeostatic and tissue damage. In this work, a new serine protease was isolated from Crotalusdurissusterrificusvenom (cdtsp-2) by throμgh four separation stages , using superdex 75 with a mobile phase of ammoniμM bicarbonate pH 8. These two fractions were fractionated on ion exchange colμMn in DEAE for separation of the major fractions and subsequently fractionated in reverse phase CLAE to confirm the degree of molecμlar homology.All chromatographic steps were monitored by the enzymatic assays in BApNA. The new serine protease called cdtsp-2 (Crotalusdurissusterrificus serine protease 2) is an unpublished protein, with a molecμlar mass of 27 kDa and its N-terminal sequence showed structural differences when compared to the gyroxin of Crotalusdurissusterrificus. Re... (Complete abstract click electronic access below) / Mestre

Cdtsp2 serina protease;

Crotalus durissus terrificus (Cdt);

secretória PLA2 (sPLA2)

Edema.

Inflamação.

Stress oxidativo.

Receptor ativado por protease

COX-2

MDA

Cdtsp2 serine protease

Crotalus durissus terrificus (Cdt);

secretory PLA2 (sPLA2);

Edema.

Inflammation

Oxidative stress

Protease activated receptor

COX-2

MDA

Sialotranscriptomics of the brown ear ticks, Rhipicephalus appendiculatus Neumann, 1901 and R. Zambeziensis Walker, Norval and Corwin, 1981, vectors of Corridor disease

De Castro, Minique Hilda

11 1900

Text in English / Corridor disease is an economically important tick-borne disease of cattle in southern Africa. The disease is caused by Theileria parva and transmitted by the vectors, Rhipicephalus appendiculatus and R. zambeziensis. There is currently no vaccine to protect cattle against T. parva that is permitted in South Africa. To develop recombinant anti-tick vaccines against Corridor disease, comprehensive databases of genes expressed in the tick’s salivary glands are required. Therefore, in Chapters 2 and 3, mRNA from the salivary glands of R. appendiculatus and R. zambeziensis was sequenced and assembled using next generation sequencing technologies. Respectively, 12 761 and 13 584 non-redundant protein sequences were predicted from the sialotranscriptomes of R. appendiculatus and R. zambeziensis and uploaded to public sequence domains. This greatly expanded the number of sequences available for the two vectors, which will be invaluable resources for the selection of vaccine candidates in future. Further, in Chapter 3, differential gene expression analysis in R. zambeziensis revealed dynamic expression of secretory protein transcripts during feeding, suggestive of stringent transcriptional regulation of these proteins. Knowledge of these intricate expression profiles will further assist vaccine development in future. In Chapter 4, comparative sialotranscriptomic analyses were performed between R. appendiculatus and R. zambeziensis. The ticks have previously shown varying vector competence for T. parva and this chapter presents the search for correlates of this variance. Phylogenetic analyses were performed using these and other publically available tick transcriptomes, which indicated that R. appendiculatus and R. zambeziensis are closely related but distinct species. However, significant expression differences were observed between the two ticks, specifically of genes involved in tick immunity or pathogen transmission, signifying potential bioinformatic signatures of vector competence. Furthermore, nearly four thousand putative long non-coding RNAs (lncRNAs) were predicted in each of the two ticks. A large number of these showed differential expression and suggested a potential transcriptional regulatory function of lncRNA in tick blood feeding. LncRNAs are completely unexplored in ticks. Finally, in Chapter 5, concluding remarks are given on the potential impact the R. appendiculatus and R. zambeziensis sialotranscriptomes may have on future vaccine developments and some future research endeavours are discussed. / Life and Consumer Sciences / Ph. D. (Life Sciences)

Rhipicephalus appendiculatus

Rhipicephalus zambeziensis

Corridor disease

Tick salivary glands

De novo transcriptome assembly

Next generation sequencing

Sialotranscriptomics

Secretory proteins

Differential gene expression

Comparative transcriptomics

Species phylogeny

Vector competence

Long non-coding RNA

595.4290968

Theileriosis -- Vaccination

The Role of [beta]2-Syntrophin Phosphorylation in Secretory Granule Exocytosis

Schubert, Sandra

20 April 2006

The trafficking of insulin secretory granules(SGs) of pancreatic b-cells is a tightly controlled complex network. Increasing evidence indicates that the cortical actin cytoskeleton modulates the mobility and exocytosis of SGs,yet the mechanisms anchoring SGs to the cytoskeleton is not completely understood.It has been shown by Ort et al.(2000,2001) that the cytoplasmic tail of an intrinsic membrane protein of the SGs named ICA512/IA-2 binds the PDZ domain of b2-syntrophin,which in turn binds to the F-actin-binding protein utrophin. These data also indicate that stimulation of SG exocytosis affects the phosphorylation of b2-syntrophin,hence altering its binding to ICA512.Therefore a model was proposed whereby SGs are anchored to the actin cytoskeleton through the ICA512/b2-syntrophin complex, whose dynamics are regulated by phosphorylation.To test this model GFP-b2-syntrophin stable INS-1 cell clones were generated.GFP-b2-syntrophin expression and localization pattern were similar to those of the endogenous protein. Electron microscopy showed that in GFP-b2-syntrophin INS-1 cells the number of SGs with a pear-like shape was increased relative to control cells. Insulin content and stimulated secretion were increased in three GFP-â2-syntrophin INS-1 cell clones,compared to non-transfected INS-1 cells and INS-1 cells expressing GFP. These increments correlated with the different expression levels of GFP-b2-syntrophin in the three GFP-b2-syntrophin INS-1 cell clones. These findings support the hypothesis that b2-syntrophin regulates the trafficking and exocytosis of SGs by modulating their tethering to the actin cytoskeleton.In order to confirm the proposed model, the phosphorylation of b2-syntrophin was investigated in more detail. Similar to endogenous b2-syntrophin,GFP-b2-syntrophin underwent Ca2+-dependent and okadaic acid-sensitive dephosphorylation upon stimulation of insulin secretion. Stimulation-dependent dephosphorylation was confirmed by immunoprecipitation of 32P-labeled GFP-b2-syntrophin.Mass spectrometry of immunoprecipitated GFP-b2-syntrophin allowed the identification of four serine-phosphorylation sites (S75,S90,S213,S373) that could affect the binding to ICA512.Mutants,in which all four phosphoserines, were replaced by either asp or ala to mimic(S/D) or prevent(S/A) phosphorylation were expressed in INS-1 cells. All S/D mutants retained a cortical localization,but by immunoblotting the pattern of the S75D allele differed from wild type and all other S/D alleles.Conversely, all S/A alleles were diffused cytosolically, except S213A,which was still restricted to the cortex. Finally, pull down assays showed increased binding of ICA512 to the S75A and S90D alleles compared to wild type b2-syntrophin,while the opposite was observed with the S75D and S90A mutants.Additionally,both the S75 and the S213 allele conform a consensus for phosphorylation by Cdk5,which is known to modulate insulin secretion. The phosphorylation of GFP-b2-syntrophin and particularly the S75 allele by Cdk5 was exhibited with pharmacological inhibitors,by in vitro phosphorylation and by RNAi. Taken together, these findings are consistent with the model by which phosphorylation of b2-syntrophin modulates the tethering of SGs to the cytoskeleton, and thereby their mobility and exocytosis. Specifically, the data of this thesis suggest that Cdk5-dependent phosphorylation of the S75 site of GFP-b2-syntrophin facilitates insulin secretion by reducing the interaction of b2-syntrophin with ICA512,thereby decreasing the actin cytoskeleton constrain on SG mobility. This process could occur in combination with the phosphatase-dependent dephosphorylation of b2-syntrophin at phosphosites other than S75. / Der Transport Insulin-gefüllter sekretorische Granula(SG) ist ein streng kontrollierter komplexer Prozess.Es gibt vermehrt Beweise,dass das kortikale Actinzytoskelett die Ausschüttung der SGs beeinflusst.Bisher ist der Mechanismus der Verankerung von SGs am Zytoskelett noch nicht vollständig aufgeklärt.Ort et al.(2000,2001) haben gezeigt,daß der zytosoplasmatische Teil des trans-membranen SG-Proteins ICA512 mit der PDZ-Domäne von b2-Syntrophin interagiert.Dieses Protein bindet das F-Actin-Bindeprotein Utrophin.Die Ergebnisse zeigen außerdem,daß durch Stimulation der SG-Exozytose der Phosphorilierungsstatus von b2-Syntrophin beeinflusst wird,woraus ein verändertes Bindungsvermögen zu ICA512 resultiert.Es wurde ein Funktionsmodel vorgestellt,in dem sich SGs durch die Interaktion des ICA512/b2-Syntrophin Komplexes an das Actinzytoskelett binden.Dabei wird die Bindedynamik durch Phosphorilierung reguliert.Um dieses Model zu etablieren,wurden stabile GFP-b2-Syntrophin produzierende INS-1-Zellklone erzeugt.Die zelluläre Lokalisation und das Expressionsmuster von GFP-b2-Syntrophin stimmen mit dem des endogenen Proteins überein.Elektronenmikroskopie zeigte eine größe Anzahl oval-verformter SGs in GFP-b2-Syntrophin INS-1-Zellen im Vergleich zu Kontrollzellen.Verglichen mit nicht-transfizierten INS-1 Zellen waren in drei GFP-b2-Syntrophin INS-1-Zellklonen der Insulingehalt der Zellen und die stimulierte Insulinsekretion erhöht.Die Werte korrelierten mit den unterschiedlichen GFP-b2-Syntrophin Expressionsmengen der Klone.Diese Ergebnisse untermauern die Hypothese,daß b2-Syntrophin den Transport und die Sekretion der SGs durch Modulation ihres Bindevermögens an Actin reguliert.Um das postulierte Model genauer zu prüfen,wurde die Phosphorilierung von b2-Syntrophin detaillierter untersucht.Das GFP-Protein wurde,ähnlich dem endogenen b2-Syntrophin,durch Stimulation der Insulinausschüttung dephosphoriliert.Diese Dephosphorilierung ist Ca2+-abhängig und Okadeinsäuresensitiv.Die stimulationsabhängige Dephosphorilierung wurde durch Immunoprezipitation von 32P-markiertem GFP-b2-Syntrophin bestätigt.Massenspektrometrie des präzipitierten Proteins ermöglichte die Identifikation von vier Serin-Phosphorilierungsstellen(S75,S90,S213,S373),welche die Bindung zu ICA512 beeinflussen könnten.Mutanten,in denen die vier Phosphoserine durch Asp beziehungsweise Ala ersetzt wurden,um entweder eine Phosphorilierung(S/D) oder Dephosphorilierung(S/A) nachzuahmen,wurden in INS-1-Zellen exprimiert.Alle S/D Mutanten blieben kortikal lokalisiert.Das Expressionsmuster des S75D Allels unterschied sich jedoch von denen des Wild-Typs(wt).Im Gegensatz dazu waren alle S/A Allele zytosolisch verteilt.Eine Ausnahme bildete S213A,das an der Zellkortex lokalisiert blieb.Im Vergleich zu wt b2-Syntrophin zeigten PullDown-Assays eine erhöhte Bindung von ICA512 zu den S75A und S90D Allelen.Das Gegenteil konnte für die S75D und S90A Mutanten nachgewiesen werden.S75,S90 und S213 sind in einer Konsensussequenz für Cdk5-Phosphorilierung enthalten.Diese Kinase kann die Insulinsekretion regulieren.Die Phosphorilierung von b2-Syntrophin,insbesondere des S75 Allels durch Cdk5 wurde durch pharmakologische Inhibitoren,in vitro-Phosphorilierung und RNAi demonstriert.Zusammenfassend stimmen diese Erkenntnisse mit dem Model überein,daß die Phosphorilierung von b2-Syntrophin die Vernetzung von SGs mit Actin und dadurch deren Mobilität und Exozytose moduliert.Im Speziellen postulieren die Ergebnisse dieser Arbeit eine Cdk5-abhängige Phosphorilierung der S75 Stelle des b2-Syntrophins.Durch eine verminderte Interaktion von b2-Syntrophin und ICA512 erleichtert diese Mutante vermutlich die Insulinsekretion,da der Einfluss des Actinzytoskeletts auf die Granulamobilität vermindert ist.Dieser Prozess ereignet sich möglicherweise in Kombination mit einer Dephosphorilierung des b2-Syntrophins.in Kombination mit einer Dephosphorilierung des b2-Syntrophins.

info:eu-repo/classification/ddc/570

ddc:570

Condensation of the β-cell secretory granule luminal cargoes pro/insulin and ICA512 RESP18 homology domain

Toledo, Pamela L., Vazquez, Diego S., Gianotti, Alejo R., Abate, Milagros B., Wegbrod, Carolin, Torkko, Juha M., Solimena, Michele, Ermácora, Mario R.

16 August 2023

ICA512/PTPRN is a receptor tyrosine-like phosphatase implicated in the biogenesis and turnover of the insulin secretory granules (SGs) in pancreatic islet beta cells. Previously we found biophysical evidence that its luminal RESP18 homology domain (RESP18HD) forms a biomolecular condensate and interacts with insulin in vitro at close-to-neutral pH, that is, in conditions resembling those present in the early secretory pathway. Here we provide further evidence for the relevance of these findings by showing that at pH 6.8 RESP18HD interacts also with proinsulin—the physiological insulin precursor found in the early secretory pathway and the major luminal cargo of β-cell nascent SGs. Our light scattering analyses indicate that RESP18HD and proinsulin, but also insulin, populate nanocondensates ranging in size from 15 to 300 nm and 10e2 to 10e6 molecules. Co-condensation of RESP18HD with proinsulin/insulin transforms the initial nanocondensates into microcondensates (size >1 μm). The intrinsic tendency of proinsulin to self-condensate implies that, in the ER, a chaperoning mechanism must arrest its spontaneous intermolecular condensation to allow for proper intramolecular folding. These data further suggest that proinsulin is an early driver of insulin SG biogenesis, in a process in which its co-condensation with RESP18HD participates in their phase separation from other secretory proteins in transit through the same compartments but destined to other routes. Through the cytosolic tail of ICA512, proinsulin co-condensation with RESP18HD may further orchestrate the recruitment of cytosolic factors involved in membrane budding and fission of transport vesicles and nascent SGs.

info:eu-repo/classification/ddc/610

ddc:610

The Immunogenetics of Dental Caries

McCarlie, Van Wallace, Jr.

January 2010

Indiana University-Purdue University Indianapolis (IUPUI) / Background: Bacterial adherence to the acquired dental pellicle, important in caries, is mediated by receptor-adhesin interactions such as Streptococcus mutans antigen I/II (I/II). Ten I/II epitopes from the A, V, P and C regions were chosen to determine their reactivity in human saliva. Underlying the body’s ability to immunologically respond to bacteria that lead to caries are the human leukocyte antigen (HLA) genes, specifically HLA class II (HLA-II) genes that control antigen presentation. Previous studies suggested that a specific HLA biomarker group (HLA-DRB1*04) may have differential control of immune responses to I/II. However, it was not known whether secretory IgA (SIgA) responses to the selected epitopes from HLA-DRB1*04 positive subjects were different compared to their non-biomarker counterparts (negative), or across other caries factors, since no study to date had thus assessed these questions. Methods: Per IRB approval, the study population was divided into age, sex and race matched DRB1*04 positive (n=16) and negative groups (n=16). SIgA-epitope (and whole cell) reactivity was determined using ELISA. Other caries factors were measured. Subjects received a clinical exam by a trained examiner. ix Differences between DRB1*04 positive and negative groups were examined using a two-sided, two-sample t-test. Results: DRB1*04 positive subjects had numerically, but not statistically, higher reactivity to 9 out of 10 epitopes, the exception being residues 834-853 from the V and P regions of I/II across multiple measures. Though statistically insignificant, DRB1*04 positive subjects also exhibited 25-30 μg mL-1 less total IgA (TIgA) than negative counterparts. All clinical caries data proved inconclusive when comparing groups, likely due to exogenous factors and sample size. Conclusion: DRB1*04 positive subjects showed a trend toward lower TIgA. Moreover, they also showed a lower SIgA response across multiple measures to 834-853, the I/II V and P region epitope. This region forms a sort of functional epicenter involved in collaboration between domains along the entire I/II antigen, and governs the region involved in initial attachment to the acquired dental pellicle. This region may be involved in an in vivo discontinuous conformationally specific immunogenic epitope that serves as an HLA-II binding motif which remains elusive.

HLA-DRB1*04 Alleles

Human Leukocyte Class II Genes

Dental Caries

Immunogenetics

Dental Caries -- immunology

Saliva -- immunology

Streptococcus Mutans -- immunology

Dental Pellicle -- immunology

Epitopes -- genetics

Immunoglobulin A, Secretory -- genetics

HLA-DR Antigens -- genetics

Localisation of kallikreins in the prostate and association with prostate cancer progression

Bui, Loan Thuy

January 2006

At present, prostate cancer is a significant public health issue throughout the world and is the second leading cause of cancer deaths in older men. The prostate specific antigen or PSA (which is encoded by the kallikrein 3/KLK3 gene) test is the current most valuable tool for the diagnosis and management of prostate cancer. However, it is insufficiently sensitive and specific for early diagnosis, for staging of prostate cancer or for discriminating between benign prostatic hyperplasia (BPH) and prostate cancer. Recent research has revealed another potential tumour marker, glandular kallikrein 2 (KLK2 gene/hK2 protein), which may be used alone or in conjunction with PSA to overcome some of the limitations of the PSA test. Twelve new kallikrein gene family members have been recently identified and, like hK2 and PSA, many of these genes have been suggested to be involved in carcinogenesis. In this study, the cellular localisation and level of expression of several of these newer kallikreins (KLK4, KLK5, KLK7, KLK8 and KLK11) was examined in prostate tissue, to provide an understanding of the association of their expression with prostatic diseases and their potential as additional biomarkers. Like PSA and hK2, the present observation indicated that each of these proteins, hK4, hK5, hK7, hK8 and hK11, was detected within the cytoplasm of the secretory cells of the prostate glands. For the first time, all of these newly-identified proteins were shown to be expressed in prostatic intraepithelial neoplasia (PIN) lesions, in comparison to normal glands and cancer lesions. In addition to cytoplasmic secretory cell expression, the localisation of hK4 to the basal cells and nuclei in prostatic lesions was intriguing. The intensity of hK4 staining in prostate tissue was strongest in comparison to the other newly-identified kallikrein proteins (hK5, hK7, hK8 and hK11). Therefore, KLK4/hK4 expression was characterised further to define this cellular localisation and examined in non-prostatic tissue and also in a larger number of prostate tissues in an attempt to determine its potential value as a biomarker for prostate disease. Three hK4 antipeptide polyclonal antibodies, derived against N-terminal, mid-region and C-terminal hK4 amino acid sequences, were used. The hK4 N-terminal antipeptide antibody was used to demonstrate the cellular localisation of hK4 in kidney, salivary glands, liver, testis, colon carcinoma, heart, endometrium and ovarian cancer, for the first time. The presence of hK4 in these non-prostate tissues was consistent with the previous reports using RT-PCR. The dual cytoplasmic and nuclear localisation of hK4 observed in the prostate above was also seen in these tissues. Although hK4 was found widely expressed in many human tissue types, indicating that it is not prostate specific in its expression, the highest expression level of hK4 was seen in the prostate. Therefore, detailed expression patterns and levels of KLK4 mRNA and hK4 protein in the normal prostate and prostatic diseases and histopathological lesions were investigated and reported for the first time in this study. Twelve benign prostatic hyperplasia (BPH), 19 adenocarcinoma (Gleason grade 2-5) and 34 bone metastases from prostate cancer were analysed. Using in situ hybridisation, the expression of KLK4 mRNA was detected in the cytoplasm of the secretory cells of both normal and diseased prostate tissue. KLK4 mRNA was also noted in both secretory and basal cells of PIN lesions, but the basal cells of normal glands were negative. Using the hK4 N-terminal and mid-region antipeptide antibodies, hK4 was predominantly localised in the cytoplasm of the secretory cells. The intensity of hK4 staining appeared lowest in normal and BPH, and increased in PIN lesions, high Gleason grade prostate cancer and bone metastases indicating the potential of hK4 as a histopathological marker for prostatic neoplasias. Further studies are required with a larger cohort to determine its utility as a clinical biomarker. Small foci of atypical cells, which were found within normal glands, were also intensely stained. Surprisingly, hK4 protein was found in the nucleus of the secretory cells (but not the basal cells) of high grade PIN and Gleason grade 3 prostate cancer. The detection of KLK4 mRNA and hK4 protein in PIN lesions and small foci of atypical cells suggests that up-regulation of KLK4 expression occurs early in the pathology of prostate carcinogenesis. The finding of basal cell expression is not typical for the kallikreins and it is not clear what role hK4 would play in this cell type. With the use of the hK4 C-terminal antipeptide antibody, the staining was mainly localised in the nuclei of the secretory cells of the prostate glands. Although the nuclear localisation was readily noted in more than 90% of epithelial cells of the prostate gland with the C-terminal antibody, no difference in staining intensity was observed among the histopathological lesions of the prostate. The prominent nuclear localisation with the C-terminal antipeptide antibody was also shown to be distributed throughout the nucleus by using confocal microscopy. Further, by using gold-labelled particles for electron microscopy, the intracellular localisation of these hK4 antipeptide antibodies was reported here for the first time. Similar to the immunohistochemical results, the cytoplasm was the major site of localisation with the N-terminal and mid-region antipeptide antibodies. To further characterise the involvement of KLK4/hK4 in human prostate cancer progression, the transgenic adenocarcinoma mouse prostate (TRAMP) model was used in this study. In this study, mouse KLK4 (also known as enamel matrix serine protease -1, EMSP-1) was shown to be expressed in the TRAMP prostate for the first time. Previous studies had only shown the developing tooth as a site of expression for EMSP-1. The level of EMSP-1 mRNA expression was increased in PIN and prostate cancer lesions of the TRAMP model, while negative or low levels of EMSP-1 mRNA were seen in normal glands or in control mouse prostate tissue. The normal mouse prostate did not stain with any the three hK4 antipeptide antibodies. hK4 N-terminal and mid-region antipeptide antibodies showed positive staining in the cytoplasm of the epithelial cells of PIN and cancer lesions of the mouse prostate. The C-terminal antipeptide antibody showed distinctively nuclear staining and was predominantly localised in the nuclei of the glandular cells of PIN and cancer lesions of the mouse prostate. The expression patterns of both the mRNA and protein level for mouse KLK4 strongly supported the observations of KLK4/hK4 expression in the human prostate and further support the utility of the TRAMP model. Overall, the findings in this thesis indicate a clear association of KLK4/hK4 expression with prostate cancer progression. In addition, several intriguing findings were made in terms of cellular localisation (basal as well as secretory cells; nuclear and cytoplasmic) and high expression in atypical glandular cells and PIN, perhaps indicating an early involvement in prostate disease progression and, additionally, utility as basal cell and PIN histological markers. These findings provide the basis for future studies to confirm the utility of hK4 as a biomarker for prostate cancer progression and identify functional roles in the different cellular compartments.

Prostate cancer

Prostate cancer progression

Gleason grade

Benign prostatic hyperplasia (BPH)

Bone metastases from prostate cancer

Kallikreins

KLK4/hK4 (prostase

KLK-L1 protein

EMSP-1)

Prostate specific antigen (PSA

KLK3)

Human glandular kallikrein (KLK2/hK2)

KLK5/hK5 (KLK-L2

HSCTE)

KLK7/hK7 (PRSS6

HSCCE)

KLK8/hK8 (PRSS19

Neuropsin

Ovasin)

KLK11/hK11 (PRSS20

TLSP

Hippostasin)

Immunohistochemistry

In situ hybridisation

Secretory cells

Basal cells

Nuclear staining

Cellular localisation

Glycosylation and dimerization of the human δ-opioid receptor polymorphic variants

Lackman, J. (Jarkko)

04 December 2018

Abstract Cellular signaling by G protein-coupled receptors (GPCRs) governs a wide array of physiological functions throughout the body. The human δ-opioid receptor (hδOR) is a GPCR that modulates the sensation of pain and mood and has great potential for the treatment of pain and a variety of neurological disorders. A common single-nucleotide polymorphism (SNP) in the extracellular N-terminal tail of hδOR changes Phe to Cys at position 27. Using various biochemical and cell biological methods, the study demonstrates that several events during receptor biosynthesis and cell surface delivery are affected by the SNP. These events participate in the multifaceted regulation of the receptor and modulate receptor behavior at the cell surface. Two distinct pathways were shown to scrutinize the quality of the synthesized hδOR in the endoplasmic reticulum (ER) and target some for degradation in N-glycan-dependent and -independent ways. The hδORCys27 that matures inefficiently required N-glycan-mediated interactions with the lectin-chaperone calnexin to be expressed in a fully functional form at the cell surface, whereas the N-glycan-independent pathway was sufficient for hδORPhe27. For both variants, the N-glycan-independent quality control, which is likely to operate as a back-up pathway, led to a more rapid export from the ER and receptors at the cell surface that were less stable. Receptor dimerization emerged as an important regulatory step for receptor cell surface delivery. In co-transfected cells, interactions between the newly-synthesized variants led to the retention and subsequent ER-associated degradation of hδORPhe27. This dominant-negative attenuation of hδORPhe27 cell surface expression by hδORCys27 may have unpredictable consequences for opioid signaling in heterozygous individuals. Finally, the study shows that N-acetylgalactosamine (GalNAc)-type O-glycosylation catalyzed in the Golgi modulates hδOR expression at the cell surface by enhancing receptor stability and inhibiting constitutive downregulation. The modification of Ser residues in the receptor N-terminus by GalNAc-transferase 2 was affected by the SNP, which presents another distinction in the cellular processing of the two variants. The findings highlight the importance of the biosynthetic pathway in the regulation of GPCR behavior and pave way for strategies for treatments targeting GPCRs at this level. / Tiivistelmä Solujenvälisellä viestinnällä on keskeinen tehtävä kehon kaikissa toiminnoissa. δ-opioidireseptori (δOR) on solusignalointiin erikoistuneen kalvoproteiiniperheen (G-proteiiniin kytketyt reseptorit) jäsen, joka ohjaa kivuntuntemusta ja mielialoja. Sitä pidetään mahdollisena lääkekehityksen kohteena paitsi kivunlievityksen, myös useiden neurologisten häiriöiden hoidossa. δOR ilmenee kahtena polymorfisena muotona sen solunulkoisessa osassa tapahtuneen aminohappomuutoksen vuoksi (Phe27Cys). Työssä tutkittiin reseptorin glykosylaatiota ja dimerisaatiota, jotka säätelevät sen prosessointia, käyttäytymistä ja toimintaa. Käyttäen useita biokemiallisia ja solubiologisia menetelmiä työssä osoitettiin polymorfian vaikuttavan useisiin prosessointivaiheisiin ja muokkaavan siten reseptorin viestintää. Proteiinien laadunvalvontakoneiston havaittiin säätelevän reseptorin siirtymistä endoplasmakalvostolta solun pinnalle kahdella eri mekanismilla ohjaten osan reseptoreista hajotukseen. Toisin kuin Phe27-variantin, tehottomasti kypsyvän Cys27-variantin laadunvalvonta on riippuvainen reseptoriin liittyvistä N-glykaaneista ja näihin sitoutuvasta kaitsijaproteiinista, kalneksiinista. Reseptorivariantit, joista N-glykaanit puuttuvat, siirtyvät nopeammin solukalvolle, mutta ne ovat epästabiileja ja häviävät nopeasti solun pinnalta. Vaihtoehtoinen N-glykaaneista riippumaton laadunvalvontamekanismi sallii myös inaktiivisen Cys27-variantin pääsyn solun pinnalle. Varianttien dimerisoitumisen osoitettiin säätelevän niiden kuljetusta soluissa. Cys27-variantin havaittiin sitoutuvan Phe27-varianttiin aikaisessa biosynteesivaiheessa ja ohjaavan osan siitä hajotukseen. Tällä voi olla suuri merkitys opioidiviestinnässä molempia alleeleja kantavilla henkilöillä. Työssä havaittiin myös GalNAc-transferaasi-2-entsyymin ohjaavan Golgin laitteessa tapahtuvaa reseptorin O-glykosylaatiota. Se glykosyloi reseptorin solunulkoisen osan seriinitähteitä (Ser6, Ser25, Ser29), stabiloiden siten solun pinnan reseptoreita ja tehostaen niiden viestintää. Lisäksi havaittiin eroja varianttien O-glykosylaatiossa, mikä voi osaltaan selittää varianttien ilmentymisessä todettuja eroja. Tutkimus luo uutta tietoa biosynteesireitin merkityksestä G-proteiiniin kytkettyjen reseptorien säätelyssä sekä antaa pohjaa keinoille, joilla tätä voitaisiin hyödyntää farmakologisesti.

G protein-coupled receptors

N-acetylgalactosaminyltransferases

calnexin

cell surface receptors

delta opioid receptors

dimerization

endoplasmic reticulum

glycoproteins

glycosylation

membrane proteins

opioid receptors

post-translational protein processing

protein biosynthesis

secretory pathway

signal transduction

single-nucleotide polymorphism

G-proteiiniin kytketyt reseptorit

delta-opioidireseptorit

dimerisaatio

glykoproteiinit

glykosylaatio

kalneksiini

kalvoproteiinit

opioidireseptorit

proteiinien biosynteesi

proteiinineritystie

signaalitransduktio

solulimakalvosto

solulimakalvostoon liittyvä hajoaminen

solun pintareseptorit

yksittäisen nukleotidin polymorfsmi