Browsing by master's degree program "Proviisorin koulutusohjelma"

Background and objectives: Documenting and processing of dispensing errors at both organizational and national levels is one of the basic preconditions for effective medication risk management. Since the most recently accomplished national register research of dispensing errors in Finland, there have been several changes in the medication dispensing process that advance medication safety. Thus, the previous study does not provide an up-to-date picture of the current situation. The primary objective of this study was to find out the trends in dispensing errors that were reported to the Finnish Pharmacy Association's registry of dispensing errors in 2015–2019. The secondary objective was to identify risk factors expository to dispensing errors in the dispensing process and to review the measures utilized by community pharmacies to prevent dispensing errors. Materials and methods: The retrospective registry study, in which the register of dispensing errors maintained by the Finnish Association of Pharmacists for the period from 1 January 2015 to 31 December 2019, was analyzed. Cases that did not fulfil the definition of a dispensing error (n=829) were removed from the original data (n=17763). In addition, clear errors (n=2130) were corrected in the data and cases (n=499) that were initially insufficiently entered in the register were added. 17433 dispensing errors were included in the study. The data was analyzed using Microsoft Excel. The number, qualities, prescription types, observers, therapeutic harms and contributory factors of the dispensing errors were investigated in the data. The most common groups of medicinal substance, high-alert medications and risk factors in the medication dispensing process were identified in the data. In addition, interventions reported by community pharmacies to prevent dispensing errors were collected from the data. Results: The number of cases reported to the dispensing error register has decreased annually (2015 n=3913, 2016 n=3795, 2017 n=3708, 2018 n=3578, 2019 n=2439). The most common types of dispensing errors are incorrect strength (51 % of all the reported dispensing errors) and incorrect quantity or package size (14 %). Slightly more than a half (51 %) of the reported dispensing errors were noticed by medicine users. The percentage of electronic prescriptions in dispensing errors has increased and is clearly the most common prescription type in dispensing errors (2015: 79 %, 2016: 84 %, 2017: 93 %, 2018: 96 %, 2019: 95 %). The majority of dispensing errors occurred with cardiovascular medicines (29 %) and medicines affecting the nervous system (26 %). 7 % of dispensing errors caused therapeutic harm to the medicine user. As a result of dispensing errors, 21 medicine users were hospitalized. 13 % of dispensing errors occurred with high-alert medications (n=2244). The high-alert medications were involved in one-third (n=7) of dispensing errors that led to hospitalization. Factors related to the employee (25 %), similar packaging (19 %), and similar medicine name (15%) were most commonly considered to be the main contributory factors for the occurrence of the dispensing errors. The risk factors identified in the medicine dispensing process were related to the pharmacy system, the characteristics of the prescription, the storage method of the medicine and the characteristics of the medicine packaging. In the automated dose dispensing process, the risk of dispensing error increased if changes had to be made to the dose dispensing order. The risk factors for automated dose dispensing were related to the pharmacy system and the characteristics of the prescription. The community pharmacies had mentioned taking measures to prevent dispensing errors in one-fifth (21 %) of the reported cases. In addition to developing their own operations, community pharmacies saw cooperation with other healthcare professionals as an important factor in preventing medication errors. In addition, community pharmacies reported exposing properties for dispensing errors of pharmaceutical products and systems to pharmaceutical companies and providers of pharmacy systems and automated dose dispensing. Conclusions: Trends, risk factors of the dispensing process and interventions to prevent dispensing errors can be identified in the dispensing errors reported to the Finnish Association of Pharmacists’ dispensing error registry. The dispensing error register provides valuable information on dispensing errors at the national level, but it is no longer able to fulfil completely the current medication safety needs. In the future, the role of the pharmacy as a promoter of medication safety should be perceived as more comprehensive. In the development of medication safety, special attention should be paid to the risk factors of the dispensing process, the high-alert medications and to new risks arising from the increase of electronic prescriptions and automated dose dispensing. In addition, cooperation between pharmacies and other healthcare professionals and the medication safety culture of pharmacies should be further strengthened.

The purpose of this systematic review is to investigate the usage of artificial intelligence in the pharmaceutical industry in the fields of pharmaceutical manufacturing, product development, and quality control. Today, developing and getting a new drug on the market is time-consuming, ineffective, and expensive. Artificial intelligence is seen as one possible solution to the problems of the pharmaceutical industry. From 734 articles 77 academic study articles were included. Included articles showed artificial neural networks to be the most used artificial intelligence method between 1991 and 2021. The search was conducted from three databases with the following inclusion criteria: studies using AI in either pharmaceutical manufacturing, product development or quality control, English as the language, and Western medicine-based pharmacy as a branch of science. This systematic literature review has three main limitations: the possibility of an important search word missing from the search algorithm, the selection of articles according to one person's assessment, and the possible narrow picture of the used artificial intelligence methods in the pharmaceutical industry, as pharmaceutical companies also research the subject. The use of artificial intelligence in product development has been studied the most, while its use in quality control has been studied the least. In the studies, tablets were a popular drug form, while biological drugs were underrepresented. In total, the number of studies published increased over three decades. However, most of the articles were published in 2020. Nearly half of the articles had some connection to a pharmaceutical company, indicating the interest of both the academy and pharmaceutical companies in the use of artificial intelligence in manufacturing, product development, and quality control. In the future, the efficacy of artificial intelligence, as well as its limitations as a method, should be investigated to conclude its potential to play a key role in reforming the pharmaceutical industry. The results of the study show that a wave of artificial intelligence has arrived in the pharmaceutical industry, however, its real benefits will only be seen with future research.

Pharmaceutical contaminants in waste and surface waters have been recognized as an emerging risk to environmental health. Bioaccumulation of pharmaceuticals increases the risk of adverse effects in off-target species, as the chemical concentration within the organism exceeds the concentration of the surrounding environment. An organism’s ability to metabolize foreign organic compounds influences the likelihood of bioaccumulation. Current methods for predicting bioaccumulation in aquatic organisms are labour intensive or too simplistic to cover the variety of chemical and physiological processes involved and may lead to over or underestimations of environmental risk. A promising approach to improve bioaccumulation predictions, without the need of excessive animal testing, is to incorporate in vitro biotransformation data into computational models. The primary aim of this study was to assess whether selected pharmaceuticals (diclofenac, gemfibrozil, haloperidol, levomepromazine, levonorgestrel, sertraline and risperidone), that are well metabolized in humans through key biotransformation pathways, are metabolized by rainbow trout (Oncorhynchus mykiss) liver enzymes under physiologically relevant conditions (11°C, pH 7.8). A secondary aim was to produce fish in vitro intrinsic clearance (CLint, in vitro) data, that could potentially be used as input in computational models to predict bioaccumulation. In vitro biotransformation was studied using a single vial approach according to the Organisation for Economic Co-operation and Development (OECD) Test Guideline 319B: Determination of in vitro intrinsic clearance using rainbow trout liver S9 sub-cellular fraction (RT-S9). Depletion of the test compounds were measured during a 3-hour incubation period. High-performance liquid chromatography with ultraviolet detection (HPLC–UV) was used for qualitative and quantitative analysis of the samples. Levomepromazine, levonorgestrel and sertraline showed significant substrate depletion compared to negative controls while gemfibrozil, haloperidol, and risperidone did not seem to be metabolized. The results for verapamil were inconclusive. Levomepromazine displayed a higher in vitro intrinsic clearance rate (26 ml/h/g liver) than diclofenac (6.2 ml/h/g liver). These results are in accordance with previous studies and support the notion that a direct comparability between fish and human metabolism cannot be assumed, highlighting the need of fish in vitro biotransformation studies. The apparent lack of in vitro metabolism of risperidone, haloperidol, and gemfibrozil combined with their lipophilicity suggest that they are more likely to accumulate within rainbow trout, compared with the compounds that showed depletion during the assays, although repetitions and additional studies are needed to confirm this.

Marine invertebrates are a good and relatively unexplored source of bioactive compounds. These bioactive secondary metabolites can have unique structures and mechanisms of actions, since they are produced by organisms, which means their structures are not limited by the fantasy of chemists. Therefore, bioactive secondary metabolites isolated from marine invertebrates are attractive for drug development. Still, there are challenges regarding bioprospecting marine invertebrates. For example, the amount of material is limited and the environment as well as the biodiversity has to be taken into account when gathering the organisms. The aim of this thesis was to perform the first steps of bioprospecting marine invertebrates; extraction, fractionisation, analysis of bioactivity and identification of bioactive metabolites. The samples used in the experiment, gathered from three different locations, were of the sponge Caulophacus arcticus. The goal was not only to identify one or more bioactive metabolites for eventual further analysis, but also to compare the bioactivity of the samples gathered from different locations. The fractionisation was performed using flash fractionisation, which resulted in eight fractions of each extract. These fractions were tested for anticancer, antibacterial and biofilm inhibiting properties. The bioactivity of the fractions was analysed by performing cell viability assays (MTS assays) on four cell lines, antibacterial growth inhibition assays on five strains of bacteria and biofilm inhibition assays on biofilm of S. epidermidis. The active fractions, the fraction right before and after them and the corresponding fractions of the two other samples were further analysed using UHPLC-HR-MS, in order to identify eventually bioactive compounds and determine the elementary composition of these compounds. The most interesting fractions, from which one or more bioactive compounds were to be identified first, were prioritised based on the bioactivity assays. One compound, which was identified as potentially bioactive with a potentially novel elementary composition, was chosen as a target compound for further analysis. Based on the results, it was also possible to draw the conclusion that there were variations as well as similarities in the bioactivity of samples gathered from different locations. Still, further research is needed to determine if the bioactivity of the same fractions from different samples was caused by the same compounds or not. Even if there are challenges regarding bioprospecting of marine invertebrates, it is still useful to keep studying them in order to find new, bioactive compounds. There is a huge need of new drugs, especially for treating cancer and bacterial infections. Therefore, experiments such as this are relevant also in a bigger perspective. The target compound identified in the experimental part of this thesis might be further analysed in order to determine whether it is bioactive and whether it is profitable to develop it further.

Binge eating disorder (BED) is the most common eating disorder characterized by compulsive recurrent binge eating episodes with the sense of a lack of control. During a binge eating episode, one eats a larger amount of food, typically high in fat and/or sugar, than would normally be eaten in a discrete period of time. After the episode, negative emotions, such as shame and self-disgust, are present. However, BED does not include compensatory behavior, such as vomiting or excessive exercise. Due to compulsive and uncontrollable eating behavior, it has been suggested that BED represents a food addiction. Eating energy-dense food activates the dopamine, opioid, and endocannabinoid systems in the brain. This elicits the activation of the reward process. Some drugs and medications affect the same neurotransmitter systems, which may produce neuronal alterations in the reward process, leading to an addiction. Several studies have found that cannabidiol (CBD) reduces the self- administration of cocaine, morphine, alcohol, and sucrose in rodents, suggesting an effect on the reward-response. Some of these effects have been shown to be mediated by cannabinoid receptor 2 and TRPV1 receptor. However, the effects of CBD on bingeing behavior have not been studied up to date. The aim of the study was to investigate the effect of CBD on homeostatic feeding and binge eating behavior in C57BL/6 mice. Five separate experiments were conducted. The first experiment investigated the effect of CBD (15, 50, and 150 mg/kg, i.p.) on locomotor activity in a modified open field test over a 2-hour period. In the second test, the effect of CBD (15, 50, and 150 mg/kg, i.p.) on homeostatic feeding was monitored in non-bingeing mice. Next, a limited intermittent access binge eating model without food deprivation or stressors was inducted. Mice had access to laboratory chow ad libitum, but a high energy diet (high in fat, HED) was presented in 24-hour periods every 5-8 days. Then the effect of CBD (15, 50, and 150 mg/kg, i.p.) on HED and chow intake in bingeing mice was investigated. In the fourth experiment, seven days following the administration, the after effect of CBD was studied by monitoring food intake without CBD treatment. Finally, it was investigated whether the effect of CBD can be inhibited by TRPV1 receptor antagonist AMG9810 (1 mg/kg, i.p). In each test, the food intake was monitored at the time point 0,5, 2,5, and 24 h after CBD treatment. Also, water consumption was measured in each experiment. The results revealed that CBD does not affect locomotor activity or homeostatic feeding at a dose of 15, 50, or 150 mg/kg (i.p). However, the results showed that CBD reduces the intake of HED in a dose-dependent manner (15, 50, or 150 mg/kg; i.p.) and, possibly, increases chow intake. No after effect was observed seven days following the administration. Most likely, TRPV1 does not mediate the effect of CBD on HED intake. Furthermore, no significant effects on water intake were observed. In this study, the core aims were to evaluate whether CBD affects homeostatic feeding or binge eating behavior in mice. The results provided a novel insight into the effects of CBD. The findings indicate that the acute systemic administration of CBD reduces HED intake, and possibly, simultaneously increases chow intake, suggesting a balancing effect on feeding in bingeing mice. However, the role of TRPV1 in this effect remains unclear, and further studies are needed.

Parkinsonin tauti on hitaasti etenevä hermorappeumasairaus, jossa mustatumakkeen dopamiinihermosolut tuhoutuvat. Taudille on tyypillistä dopamiinihermosoluissa esiintyvät Lewyn kappaleet, jotka koostuvat pääasiassa väärin laskostuneesta ja kasautuneesta alfasynukleiiniproteiinista. Myös neuroinflammaation uskotaan olevan osa Parkinsonin taudin patofysiologiaa. Nykyiset lääkkeet vaikuttavat ainoastaan taudin oireisiin, joten tarve uusille lääkkeille on suuri. Pilottikokeen tarkoituksena oli selvittää aiheuttaako adenoassosioidun virus- (AAV) vektorin alfasynukleiinin ja alfasynukleiinifibrillien yhdistelmämalli rotilla liikehäiriöitä ja tyrosiinihydroksylaasi- (TH) positiivisten dopamiinihermosolujen tuhoutumista mustatumakkeessa ja hermopäätteiden tuhoutumista aivojuoviossa sekä saadaanko mallilla aikaan neuroinflammatorinen vaste. Varsinaisen pitkän kokeen tarkoituksena oli selvittää aivojen dopamiinihermokasvutekijän (CDNF) mahdollinen neurorestoratiivinen vaikutus tässä mallissa. Alfasynukleiinin kasautumispatologian tasoa ja CDNF:n neurorestoratiivista vaikutusta selvitettiin käyttäytymiskokeilla sekä mustatumakkeen ja aivojuovion TH-vasta-ainevärjäyksillä. Yhdistelmämallista aiheutuvaa neuroinflammatorista vastetta selvitettiin ionisoidun kalsiumia sitovan adapterimolekyylin 1 (Iba1) ja gliaalisen fibrillaarisen happaman proteiinin (GFAP) vasta-ainevärjäyksillä. Pilottikokeen sylinterikokeessa yhdistelmämalli ei indusoinut liikehäiriötä, mutta pitkän kokeen askel- ja sylinterikokeessa mallin osoitettiin aiheuttavan unilateraalille leesiolle tyypillinen liikehäiriö. Pilottikokeen ja pitkän kokeen TH-vasta-ainevärjäyksissä mallin osoitettiin aiheuttavan TH-positiivisten dopamiinihermosolujen tuhoutumista mustatumakkeessa ja hermopäätteiden tuhoutumista aivojuoviossa. Nämä tulokset osoittavat, että yhdistelmämallilla saadaan aikaan alfasynukleiinin kasautumispatologiaa. Pilottikokeessa osoitettiin myös, että yhdistelmämallilla saadaan aikaan neuroinflammatorinen vaste, mikä osoittaa, että malli soveltuu hyvin uusien lääkkeiden vaikutuksen tutkimiseen Parkinsonin tautiin liittyvässä neuroinflammaatiossa. Pitkän kokeen sylinterikokeessa AAV-CDNF:llä ei ollut vaikutusta mallista aiheutuvaan liikehäiriöön. Sen sijaan askeltestissä kämmenen suunnan mittauksessa AAV-CDNF korjasi liikehäiriötä. AAV-CDNF ei kuitenkaan suojannut TH-positiivisia hermosoluja mustatumakkeessa tai hermopäätteitä aivojuoviossa, minkä perusteella johtopäätöstä CDNF:n neurorestoratiivisesta vaikutuksesta ei voida tehdä.

Poorly water-soluble drugs are challenging to formulate as solid oral dosage forms because of their inadequate solubility in the gastro-intestinal tract. Amorphous solid dispersions (ASDs) are a proven method of increasing the oral bioavailability of poorly water-soluble drugs through drug supersaturation. Downstream processing of ASDs into oral tablets has gained academic interest in recent years. However, minitablets, which are tablets smaller than 4 mm in size, have not received the same level of attention. Minitablets have been cited as a promising dosage form for children, the elderly and in veterinary use because of their good compliance, flexible dosing, and ease of swallowing. In this work, 15 different blends of microcrystalline cellulose and lactose have been characterized for their suitability in the formulation of an ASD of spray-dried poorly soluble indomethacin in PVP K 29-32 or HPMCAS MF as minitablets. Minitablets were compressed at the compression forces ~1000 N and ~1500 N. The flowability of the blends were evaluated based on the Carr’s indices, Hausner ratios and angles of repose. From the most promising blends, 3.0 mm placebo minitablets were manufactured. A mixing test using colored beetroot powder was used to determine the optimal mixing time. The finished tablets were tested for their uniformity of mass, crushing strength, height, and disintegration. Based on their Carr’s indices and Hausner ratios, Vivapur 105, Vivapur 200, Pharmatose 200M and Pharmatose 80M had the best flowabilities. Placebo minitablets were successfully manufactured from blends of these excipients except for the 1:1 ratio of Vivapur 105/Pharmatose 80M. The mixing test indicated that the optimal mixing time is 20 to 25 minutes. The mass variation for all placebo batches except the 1:3 ratio of Vivapur 105/Pharmatose 80M was less than 10 percent from the average mass and most batches therefore fulfilled the uniformity of mass requirement of the European Pharmacopoeia. For five of the batches, the variation was within 2.80 percent. The average crushing strengths were between 32.4 N and 79.7 N and increased with increasing compression force. All batches of placebo minitablets disintegrated within 6 to 19 seconds on average except the 1:3 ratio of Vivapur 105/Pharmatose 80M which took 90 seconds to disintegrate. Minitablets filled in capsules disintegrated within 124 to 167 seconds on average except for the previously mentioned slower disintegrating batch which disintegrated in 477 seconds. All placebo minitablets, individual or loaded into capsules disintegrated within 15 minutes thereby fulfilling the requirement of the European Pharmacopeia. When considering the results obtained for placebo minitablets, the 3:1 ratio blend of Vivapur 200/Pharmatose 200M with 0.5 % (w/w) magnesium stearate was found to be the most promising candidate for ASD formulation. This formulation was subsequently used as the basis for the manufacture of 3.0 mm minitablets containing 6.22 % (w/w) of a spray-dried dispersion of indomethacin and PVP K 29-32. Except for one outlier, the mass variation of these minitablets fell within 2.37 % of the average mass, thereby fulfilling the requirement of the European Pharmacopoeia. Single indomethacin-PVP minitablets disintegrated within 6 minutes and 38 seconds, and capsules containing twelve minitablets disintegrated within 10 minutes and 37 seconds, which also is accordance with the pharmacopoeia. At 80.3 to 80.4 N the crushing strength was at the upper end of the targeted range, but still adequate. Thus, the formulation developed in this study appears promising for the manufacture of minitablets containing 6.22 % of an amorphous indomethacin-PVP dispersion. This study demonstrated that minitablets could be manufactured from a spray-dried solid dispersion despite its poor flowability.

Oncolytic adenoviruses are a new cancer treatment platform which aims to eliminate cancer through direct lysis of cancer cells by viral replication and the activation of the immune system by the release of tumor antigens upon oncolysis. In the PeptiCRAd technology, the activation of an anti-cancer immune response is enhanced by the addition of poly-lysine modified cancer peptides, where the antigen presentation to the immune system is improved in comparison to plain oncolytic viruses. PeptiCRAd complexes have been assumed to form solely by electrostatic interactions, but the thermodynamic profiles and mechanisms involved in the complexation have not been previously addressed. Thus, by adding isothermal titration calorimetry as part of the analysis repertoire provides valuable information of the characteristics of PeptiCRAd complexes. In this study, the applicability of isothermal titration calorimetry in PeptiCRAd complexation analyses was evaluated based on initial peptide-to-virus and virus-to-peptide titrations, and a method of analysis was created for the thermodynamics of the interactions of the complex. Optimization of the experimental method (i.e., titration protocol) and the data analysis (i.e., calculation models) remains inconclusive for quantitative analysis as data obtained from the measurements was mainly of bad quality, thus requiring further optimization to obtain reliable data. However, using surface plasmon resonance as an already established method for poly-lysine peptide-virus interaction studies gave robust data and can be used as a base or guideline to further develop isothermal titration calorimetry analyses for characterizing PeptiCRAd complexes. Although isothermal titration calorimetry measurements were unsuccessful for quantification purposes, it was possible to qualitate the mechanisms of PeptiCRAd complexation for four different peptides with fair confidence. The peptides showed low heats of binding, and positive and negative cooperative binding in ionic and non-ionic solutions, respectively. Based on this, the binding of peptides in PeptiCRAd complexes was determined to be driven by hydrophobic inter-peptide interactions on the virus surface, although an electrostatic attraction is indeed present at the virus-peptide interface, initiating the binding event. Also, improvements to the titration protocol for PeptiCRAd analyses with isothermal titration calorimetry are suggested for further optimizations in the future to conclusively determine the applicability of the isothermal titration calorimetry technique for characterizing peptide-virus interactions of PeptiCRAd complexes.

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder caused by degeneration of motor neurons in brain and spinal cord. The degeneration of motor neurons leads to muscle atrophy and paralysis. Currently there is no cure for ALS. Available drugs for ALS can lengthen the survival time by a couple of months. Several factors involve the pathophysiology of ALS, such as endoplasmic reticulum stress and neuroinflammation. Mesencephalic astrocyte-derived neurotrophic factor (MANF) is a protein which has shown neuroprotective effects on animal models of Parkinson disease and brain ischemia. C-terminal fragment of MANF can cross the blood-brain barrier, allowing it to be administered subcutaneously instead of injected directly into the brain. The experimental part consists of two parts. The aim of the first part was to study the pharmacokinetic properties of next generation MANF (C-MANF). The aim of the second part was to elucidate the effect of twice a week administered subcutaneous injection of C-MANF in genetic SOD1-G93A mouse model and its neuroprotective effects by assessing protection of lumbar motor neurons. Pharmacokinetic properties of C-MANF were determined in wild type mice after a single subcutaneous injection of C-MANF at different time points by using indirect ELISA assay. The effects of C-MANF in SOD1-G93A mouse model were assessed by subcutaneous injection of either C-MANF or PBS twice a week and by monitoring clinical score and motor behavior of mice from 10 weeks of age to clinical endpoint. Hematoxylin eosin staining was used to study neuroprotective effects of C-MANF. C-MANF administered subcutaneously is absorbed into the blood circulation and the highest serum concentration of C-MANF is after 60 minutes of dosing. Subcutaneously injected C-MANF also crosses the blood-brain barrier and reach the brain in 120 minutes. C-MANF did not preserve motor function or ameliorated ALS symptoms in SOD1-G93A mouse model. In this study C-MANF did not increase the survival of SOD1-G93A mice. C-MANF did not significantly protect motor neurons from degeneration even though there was a slight trend between the groups. No beneficial effects were observed with C-MANF in SOD1-G93A mouse model and therefore the dose and frequency of administration of C-MANF were not optimal. Subcutaneously injected C-MANF provides a safer dosing option for neurodegenerative disorders.

Viral promoters are an essential part of a normally functioning virus. Their main task is to drive the transcription of genes which govern hijacking of cell function and replication of viral particles. In addition to supporting normal function of a virus, they can be used to drive the transcription of transgenes which can be used in different therapies. In oncolytic therapies, transgenes can be used to prime the host system against neoplasms which has been shown to generate long term anti-tumour immunity. Human adenoviruses (Ad) are commonly used as a platform for oncolytic virotherapies. Human Ad’s replicate poorly in mouse tumour cell lines, yet some promoters, which are included in the viral constructs to drive the transcription of beneficial transgenes, are able to function. Currently it is unknown whether E3, the native promoter of adenovirus 5 of the E3 region, is capable of functioning in murine cell lines. In this thesis we study whether human cytomegalovirus promoter (CMV) and E3 differ in their efficacy to drive the transcription of the mOX40L and mCD40L transgenes. In the experimental part of this thesis, we compared the efficacies of two viral promoters, AdE3 and AdCVM, in transcribing mOX40Land mCD40L in vitro. Efficacy of transcription was assessed through immunofluorescence and flow cytometry in human and murine cell lines. Furthermore, the effects of promoters on viral infection, killing and replication were evaluated in burst assay and the colorimetric MTS proliferation assay. MTS and burst assay were conducted to confirm if viral infection, killing and replication occurs in human and murine cell lines. Both AdE3 and AdCMV were able to infect and kill human cell lines and cell viability decreased in correlation to the number of viral particles used. In murine cell lines, no decrease in cell viability was detected in the 4T1 cell line. In burst assay, viral replication was observed for both AdE3 and AdCMV in the human MDA-MB-436 cell line. In murine CT26 cell line, no replication was observed for AdE3 or AdCMV constructs. Immunofluorescence assay was performed to visualize transgene expression and localization. Results indicated that mOX40L was localized on cell surface while mCD40L was detected both outside and inside of the cytosolic compartment. Flow cytometry results revealed that both AdE3 and AdCMV constructs are capable of efficiently transcribing mOX40L in human cell lines. In the flow cytometry results for AdE3, two large cell populations with different fluorescence intensities were detected. AdCMV lacked this feature which is postulated to be due to higher lytic activity of the viral construct. In murine cell lines, HCMV could produce mOX40L, but production in murine cell lines was severely attenuated compared to human cell lines. mOX40L produced by the AdE3 construct did not differ from the baseline and was deemed incapable of producing mOX40L in murine cell lines. For the purpose of studying novel virotherapeutics the results of this thesis would indicate that human CMV can be used to drive expression of transgenes in murine cell lines. Despite this, it is preferable to use host specific viruses and promoter sequences for a better translation between mice and humans. Viruksen promoottorit ovat keskeisessä osassa toimintakykyisessä viruksessa. Virus promoottorin päätarkoituksena on geenien transkriptio, mitkä vastaavat solun keskeisten toimintojen kaappaamisesta ja virus partikkeleiden replikaatiosta. Näiden toimintojen lisäksi promoottoreita voidaan käyttää transgeenien transkriptiossa, mitä voidaan hyödyntää sairauksien hoidossa. Onkolyyttisissä terapioissa transgeenejä voidaan käyttää virittämään kehon immuunipuolustus taistelemaan kasvainkudosta vastaan. Ihmisen adenovirusta käytetään usein onkolyyttisten viroterapioiden alustana. Ihmisen adenovirus (Ad) replikoituu hyvin heikosti hiiren syöpäsoluissa, mutta osa adenovirukseen sisälletyistä eksogeenisistä promoottoreista, joita käytetään terapeuttisten transgeenien transkription ajamiseen, kykenee toimimaan ja tuottamaan haluttua proteiinia. Tällä hetkellä ei tiedetä, kykeneekö E3, joka on adenoviruksen E3 lokuksen promoottori, toimimaan hiiren solulinjoissa. Tässä tutkielmassa selvitämme ihmisen sytomegalovirus promoottorin (CMV) ja E3 eroa niiden tehossa ajaa mOX40L ja mCD40L transgeenien transkriptiota. Kokeellisessa osuudessa vertailimme kahden virus promoottorin, E3 ja CMV, eroa niiden tehossa ajaa mCD40L ja mOX40L transkriptiota in vitro. Transkription tehoa tutkittiin immunofluoresenssin ja virtaussytometrian avulla ihmisen ja hiiren syöpäsolulinjoissa. Tämän lisäksi promoottorien vaikutusta virus infektioon, replikaatioon ja kykyyn tappaa soluja arvioitiin burst kokeella ja kolorimetrisellä MTS menetelmällä. MTS ja burst kokeiden avulla varmistettiin AdE3 ja AdCMV virusten kyky infektoida, tappaa ja replikoitua ihmisen ja hiiren syöpäsolulinjoissa. Sekä Ad3 ja AdCMV todettiin kykenevän infektoimaan ja tappamaan ihmissyöpäsoluja ja solujen viabiliteetin lasku korreloi virus partikkeleiden määrän kanssa. Hiiren 4T1 syöpäsoluissa ei todettu solujen viabiliteetin laskevan. Burst kokeessa havaitsimme sekä AdE3 että AdCMV kykenevän replikoitumaan ihmisen MDA-MB-436 solulinjassa. Hiiren CT26 solulinjassa kummankaan viruksen ei havaittu kykenevän replikoitumaan. Immunofluoresenssi kokeessa visualisoimme transgeenien ilmentymisen ja paikantumisen. Tulokset osoittivat, että mOX40L paikantui solun pinnalle. mCD40L havaittiin puolestaan sekä solun ulkopuolella että sytosolissa. Virtaussytometria kokeen tulokset osoittivat, että sekä AdE3 ja AdCMV pystyivät tehokkaasti ilmentämään mOX40L ihmisen solulinjoissa. AdE3 virtausytometria tuloksissa löydettiin kaksi solupopulaatiota, joilla oli toisistaan poikkeavat fluoresenssi intensiteetit. Tätä ilmiötä ei havaittu AdCMV:lla infektoiduilla soluilla, mikä saattoi johtua korkeammasta lyyttisestä aktiivisuudesta. Hiirisolulinjoissa CMV kykeni ilmentämään mOX40L, mutta transkription teho oli selvästi alhaisempi verrattuna ihmissolulinjoihin. E3 promoottorin ilmentämä mOX40L ei eronnut kontrollista ja sen todettiin olevan kykenemätön tuottamaan mOX40L hiirisolulinjoissa. Tuloksemme osoittavat, että ihmisen CMV promoottori kykenee ilmentämään transgeenejä hiiren 4T1 ja CT26 solulinjoissa. On kuitenkin huomattava, että isäntälajille natiivien virusten ja promoottorien käyttö olisi tarkoituksenmukaisempaa tulosten käännettävyyden kannalta hiiristä ihmisiin.