HSV-1 INFECTION IN KERATINOCYTE CELL LINES TREATED WITH MITOTIC INHIBITORS

Abbas, Asma A.

27 April 2011

No description available.

Immunology

HSV-1 infection

keratinocyte cell lines

mitotic inhibitors

Expression of anti-HIV peptides in tobacco cell culture systems

Moodley, Nadine

January 2009

Submitted in fulfillment of the requirements for the Degree of Master of Technology: Biotechnology, Department of Biotechnology and Food Technology, Faculty of Applied Sciences, Durban University of Technology, South Africa,2009. / Nearly half of all individuals living with HIV worldwide at present are woman and the best current strategy to prevent sexually transmitted HIV is antiretrovirals (ARVs). Microbicides are ARV’s which directly target viral entry and avert infection at mucosal surfaces. However, most promising ARV entry inhibitors are biologicals which are costly to manufacture and deliver to resource-poor areas. Microbicides formulated as simple gels, which are currently not commonly used in ARV therapy, show immense potential for use in prevention and treatment of multidrug-resistant viral infections in developing countries. Among the most potent HIV entry inhibitory molecules are lectins, which target the high mannose N-linked glycans which are displayed on the surface of HIV envelope glycoproteins. Of the microbicides, the red algal protein griffithsin (GRFT) has potent anti-HIV inhibitory activity and is active by targeting the terminal mannose residues on high mannose oligosaccharides. It has a total of 6 carbohydrate binding sites per homodimer, which likely accounts for its unparalleled potency. The antiviral potency of GRFT, coupled with its lack of cellular toxicity and exceptional environmental stability make it an ideal active ingredient of a topical HIV microbicide. v Scytovirin (SVN) is an equally potent anti-HIV protein, isolated from aqueous extracts of the cyanbacterium, Scytonema varium. Low, nanomolar concentrations of SVN have been reported to inactivate laboratory strains and primary isolates of HIV- 1. The inhibition of HIV by SVN involves interactions between the protein and HIV-1 envelope glycoproteins gp120, gp160 and gp41. Current recombinant production methods for GRFT and SVN molecules are unfortunately hampered by inadequate production capacities. This project therefore aimed to determine if these molecules can be produced in plant cell culture systems. The transgenic tobacco cell culture system was evaluated to determine if it can be an alternative, cost effective production system for these molecules. Results of the study show that the microbicide genes can be cloned into plant transformation vectors, used to successfully transform SR1 tobacco cell lines and adequately produce 3.38ng and 10.5ng of GRFT and SVN protein respectively, per gram of SR1 tobacco callus fresh weight. The promising results attained in this study form the basis for further work in optimising plant cell based production systems for producing valuable anti-HIV microbicides, a possible means to curbing the elevated HIV infection rates worldwide. / CSIR

Biotechnology

Tobacco--Cytology

HIV infections--Prevention

Plant cell culture

Cell lines

Examination of irradiated neuroblastoma and neuroepithelial cell lines for the interrelationship between cell survival, micronucleation, apoptosis and DNA repair

Akudugu, John Mbabuni

12 1900

Thesis (Ph.D.)--Stellenbosch University, 2000. / ENGLISH ABSTRACT: Predictive assays are of key importance in clinical radiotherapy, chemotherapy and toxicology. Prior to exposing malignant tissues to irradiation or drugs in the clinic, a good understanding of the damage response to the cytotoxic agent is required. Such information is necessary for effective planning and treatment. Regrettably however the methods which detect DNA damage, namely micronucleus, apoptosis and DNA repair assays do not rank cells according to their intrinsic survival response to cytotoxic agents. The application of predictive assays based on micronuclei and apoptosis in the clinic therefore remains unreliable. Using a panel of 7 neuroblastoma and 6 neuroepithelial cell lines, it is shown that damage assays also do not rank cell lines according to cell survival. However, radiosensitivity can be reconstructed from micronuclei formation and apoptosis, and a new parameter, cell death due to small deletions, chromosome aberrations and misrepair. The interrelationships between radiation-induced micronuclei, apoptosis and repair is complex and varies between cell lines. Micronuclei formation and apoptosis are exponentially interrelated. This suggests that these cell inactivation pathways are strongly correlated. Evidence exists to show that the expression of apoptosis and micronuclei is influenced by the extent of DNA double-strand break repair within the first 2 hours after irradiation. Cell lines which repair more damage in the first 2 hours express more micronuclei and less apoptosis. Micronuclei formation and apoptosis and are not significantly correlated with the 20 hours slow repair component. There is however a strong correlation between 20 hours of repair and radiosensitivity, with the more radioresistant cell lines being more repair proficient. This suggests that the 2 hours (fast) DNA repair component is more error prone, and that cells lines repairing more damage late after irradiation tend to show better survival. In conclusion, micronuclei formation, apoptosis and DNA repair are strictly cell type specific and are not suitable for predicting radiosensitivity in terms of cell survival. However, these assays are very useful for studies on the influences of dose modifying agents i.e. oxygen tension, radiation modality, pH, cytotoxic sensitisers and radiation protectors which alter cellular responses and provide insight into damage mechanisms. / AFRIKAANSE OPSOMMING: Toetse wat kliniese gevolge kan voorspel is van uiterse beking in stralingsterapie, chemoterapie en toksikologie. Voordat kwaadaardige weefsels aan bestraling of chemise middels blootgestel can word in die kliniek, moet daar 'n goeie begrip van die skade weerstand wees van die selgiftige middel. Hierdie inligting is noodsaaklik vir effektiewe beplanning en behandeling. Ongelukkig stem die metodes wat ONS skade, apoptose en ONS hersteltoetse, nie ooreen met die selle se inherente straling sensitiwiteit nie. Die aanwending van voorspelbare toetse gebaseer op mikrokerne en apoptose in die kliniek bly dus onbetroubaar. Deur gebruik te maak van 'n paneel van 13 neurologiese sellyne, is daar bewys dat ONS skade toetse nie sellyne rangskik volgens seloorlewing nie. Radiosensitiwiteit kan herbou word deur 'n neiging om mikrokerne te vorm, apoptose, en sel sterftes weens klein vermiste ONS volgordes, chromosoom aberrasies en verkeerd herstelde ONS. Die verhouding tussen straling-geïnduseerde mikrokerne, apoptose en selgenees is kompleks en varieer tussen sellyne. Die ontstaan van mikrokerne en apoptose is eksponensiel verbind. Dit dui aan dat hierdie seltraagheidsbane streng gekorreleer word. Daar is bewys dat die uitdrukking van apoptose en mikrokerne deur die mate van herstel van die ONS dubbelstring-breuke binne die eerste 2 ure na bestraling beïnvloed is. Daar is gevind dat sellyne wat meer skade herstel binne die eerste 2 ure meer mikrokerne en minder apoptose toon. Die ontstaan van mikrokerne en apoptose is nie betekenisvol gekorreleer met die 20-uur stadige herstel komponent nie. Daar is inderdaad 'n sterk korrelasie tussen die 20-uur herstel komponent en radiosensitiwiteit, en die meer radioweerstandbiedende sellyne net In hoër herstel bekwaamheid. Dit laat mens dink dat die 2 uur (vinnige) DNS herstel komponent meer geneig is om foutief te wees, en dat sellyne wat meer skade, laat na bestraling herstel, beter oorlewing toon. Ten slotte, die ontstaan van mikrokerne, apoptose en DNS herstel is strenggesproke seltipe spesifiek en is nie toepaslik om radiosensitiviteit, in terme van seloorlewing, te voorspel nie. Hierdie toetse is nuttig vir studies waar die invloed van dosismodifiseringsagente, soos suurstof-spanning, straling-tipe, pH, sitotoksieke sensiteerders en stralingsbeskermers, wat sellulêre gevoeligheid verander en insig gee tot skade meganismes.

Nucleolus

Neuroblastoma

Apoptosis

DNA repair

Cell lines

Irradiation

Dissertations -- Radiation oncology

Theses -- Radiation oncology

Cell biological responses of prostatic tumour cell lines to irradiation and anticancer drugs

Serafin, Antonio Mendes

12 1900

Thesis (PhD)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: The "classic" prostate cell lines, DU145, PC-3 and LNCaP, have served as a valuable cell biological model for research into prostate cancer. However, their relevance may be limited because they derive from metastatic, and not from primary normal and tumour epithelium. The cell lines (1532T, 1535T, 1542T, 1542N and BPH-l) have been derived from primary benign and malignant human tumour prostate epithelium and may be more representative. Using these cell lines I have examined the role of basic cell damage responses (repair, checkpoint activation, apoptosis and associated signalling proteins, and the influence of androgen status) in cell inactivation, and its relevance to treatment. Numerous studies have suggested that loss of p53 function leads to resistance to chemotherapeutic agents and irradiation. It is shown here that the p53-inactive cell lines are, in fact, the most sensitive to chemotherapeutic agents such as etoposide, vinblastine and estramustine, whilst the p53 wild-type cell line, LNCaP, is the most radiosensitive. Notwithstanding the effects of p53 degradation by the HPV -16 E6 viral protein, the results on chemosensitivity raises the possibility that different chemotherapeutic agents may have different p53-dependent effects in different tumour cells. Androgen deprivation is demonstrated to sensitise prostate cancer cells to chemotherapeutic agents and it is shown that the hormone independent cell lines are the most chemosensitive. The LNCaP cell line displayed an increased resistance to apoptosis induced by etoposide and gamma irradiation, suggesting that androgens are capable of protection against both these DNA damaging agents. The major factors determining radiosensitivity in human tumour cell lines are known to be DNA double-strand break (dsb) induction and repair. In the prostate cell lines I find that cellular radiosensitivity correlates with the number of DNA double-strand breaks measured within 2 hours of irradiation, and that the more radioresistant cell lines show better repair competence. Conclusions as to the influence of androgen dependence on radiosensitivity and repair are not possible at this stage since only the LNCaP cell line was androgen sensitive. The fact that the 2 hour repair period can separate radiosensitive from radioresistant cells in 2 groups of human tumour cell lines highlights the role of non-homologous end-joining repair. This has implications for therapy, and is consistent with the clinical observation that prostate tumours can be successfully controlled by low dose rate-brachytherapy. To evaluate the role of apoptosis, cells were exposed to TD50 concentrations of chemotherapeutic drugs, and 60Co y-irradiation. Apoptosis was found to be low, overall, and ranged from 0.1% - 12.1%,3.0% - 6.0% and 0.1% - 8.5% for etoposide, estramustine and vinblastine, respectively. The percentage of cells undergoing druginduced apoptosis was, on average, higher in the tumour cell lines than in the normal cell lines. Gamma irradiation-induced apoptosis levels ranged from 1.3% - 7%. The LNCaP cell line yielded the lowest percentage of apoptotic cells after exposure. The l532T cell line yielded the highest percentage of apoptotic cells after exposure. Apoptotic propensity did not rank the cell lines according to their radiosensitivity. Immunoblotting demonstrated that the apoptosis-associated proteins, bax and bcl-2, are expressed at a basal level in all the cell lines tested, but no increase was detected after exposure to TD50 doses of etoposide, vinblastine and estramustine. The ratio of bax and bcl-2 also was not altered by DNA damage. No evidence was found that a correlation may exist between reproductive cell death and the expression of genes which control apoptosis. My results show that apoptosis is not a major mechanism of drug- or radiation-induced cell death in prostate cell lines. In conclusion, loss of p53 function and loss of androgen dependence was not found to be correlated with resistance of tumours to chemotherapeutic drugs. Cellular radiosensitivity was found to be correlated with the number of DNA double-strand breaks remaining after 2 hours of repair. The more radioresistant cell lines showed better repair competence. Apoptosis and genes affecting apoptosis, such as p53 and members of the bcl-2 family, do not seem to contribute significantly to the sensitivity of prostate cancer cells to anticancer drugs and irradiation. / AFRIKAANSE OPSOMMING: Die klassieke prostaat sellyne, DU145, PC-3 en LNCaP, het 'n waardevolle bydrae gemaak in die sel biologiese model in prostaat kanker. Die toepaslikheid daarvan mag egter beperk wees, aangesien hierdie sellyne afkomstig is van metastatiese, en nie van primêr normale en tumor epiteel nie. Die sellyne 1532T, 1535T, 1542T, 1542N en BPH-I is afkomstig van primêre benigne en maligne menslike prostaat tumor epiteel en mag moontlik meer verteenwoordigend wees. Deur van hierdie sellyne gebruik te maak, is die rolondersoek van die reaksie op basiese selskade (d.w.s. herstel, beheerpunt aktivering, apoptose en verwante sein proteïene, en die invloed van androgeen status) tydens die proses van sel inaktivering, asook die toepaslikheid ten opsigte van behandeling. Volgens verskeie studies lei die verlies aan p53 funksie tot weerstandigheid teen chemoterapeutiese middels en bestraling. Die resultate van hierdie studie toon dat die p53-onaktiewe sellyne egter die sensitiefste is vir chemoterapeutiese middels, soos etoposied, vinblastien en estramustien, terwyl die p53 natuurlike-tipe sellyn, LNCaP, die meeste radiosensitief is. Ten spyte van die invloed van p53 afbraak deur die HPV -16 E6 virale proteïen, dui die resultate van chemosensitiwiteit op die moontlikheid dat verskillende chemoterapeutiese middels verskillende p53-afhanklike effekte op verskillende tumorselle mag hê. Dit is bewys dat onttrekking van androgeen prostaat kankerselle sensitiseer teen chemoterapeutiese middels en dat hormoon-onafhanklike sellyne die hoogste chemosensitiwiteit vertoon. Die LNCaP sellyn vertoon 'n verhoogde weerstandigheid teen apoptose wat deur etoposied en y-bestraling geïnduseer is, wat 'n aanduiding is dat androgene beskerming kan bied teen beide hierdie DNA beskadigingsfaktore. Die belangrikste faktore wat die radiosensitiwiteit in menslike tumorselle bepaal, IS bekend dat dit die dubbelbande van DNA verbreek en herstel. Hierdie studie het aangetoon dat in prostaat sellyne die sellulêre radiosensitiwiteit korreleer met die aantal DNA dubbelband verbrekings binne 2 uur na bestraling, en dat die meer radioweerstandige sellyne beter herstelvermoë vertoon. Gevolgtrekkings oor die invloed van androgeen se afhanklikheid van radiosensitiwiteit en herstel kan egter nie op hierdie stadium gemaak word nie, aangesien slegs die LNCaP sellyn androgeenafhanklik was. Die feit dat die 2 uur herstelperiode 'n skeiding kan maak tussen radiosensitiewe en radioweerstandige selle in twee groepe menslike tumor sellyne, onderstreep die rol van herstel van nie-homoloë endverbindings. Dit hou implikasies in vir terapie, en stem ooreen met die kliniese waarnemings dat prostaat tumore suksesvol gekontroleer kan word deur lae intensiteit dosis bragiterapie. Ten einde die rol van apoptose te ondersoek, is selle blootgestel aan TD50 konsentrasies chemoterapeutiese middels, asook 60Co y-bestraling. Apoptose was oor die algemeen laag, en het gestrek van 0.1% tot 12.1%,3.0% tot 6.0% en 0.1% tot 8.5% vir etoposied, estramustien en vinblastien onderskeidelik. Die persentasie selle wat middel geïnduseerde apoptose ondergaan het, was gemiddeld hoër in tumor sellyne as in normale sellyne. Die waardes van apoptose geïnduseer deur y-bestraling het gewissel van 1.3% tot 7.0%. Die LNCaP sellyn het die laagste persentasie apoptotiese selle na bestraling gelewer, terwyl die 1532 r sellyn die hoogste persentasie gelewer het. Die volgorde van die radiosensitiwiteit van die sellyne was nie waarneembaar in hulle geneigdheid tot apoptose nie. Immunoblots het aangetoon dat die apoptose-geassosieerde proteïene, bax en bcl-2, uitgeskei word teen 'n basisvlak in al die sellyne wat getoets is, maar dat geen verhoogde uitskeiding waarneembaar was na blootstelling aan TD50 dosisse etoposied, vinblastien en estramustien nie. Die verhouding van bax en bcl-2 is ook nie beïnvloed deur DNA beskadiging nie. Dit blyk daarom dus onwaarskynlik dat daar 'n korrelasie bestaan tussen reproduktiewe seldood en die uitskeiding van gene wat apoptose beheer. Die resultate dui daarop dat apoptose me 'n belangrike meganisme vir middel- of bestralingsgeïnduseerde seldood in prostaat sellyne is nie.

Prostate -- Cancer

Prostate -- Cancer -- Treatment

Irradiation

Chemotherapy

Apoptosis

Cell lines

Dissertations -- Radiation oncology

Theses -- Radiation oncology

Transcriptomic and proteomic analysis of arbovirus-infected tick cells

Weisheit, Sabine

January 2014

Ticks are important vectors of a wide variety of pathogens including protozoa, bacteria and viruses. Many of the viruses transmitted by ticks are of medical or veterinary importance including tick-borne encephalitis virus (TBEV) and Crimean- Congo hemorrhagic fever virus causing disease in humans, and African swine fever virus and Nairobi sheep disease virus affecting livestock. Although several studies have elucidated tick antimicrobial mechanisms including cellular immune responses such as nodulation, encapsulation and phagocytosis and humoral immune responses such as the JAK/STAT pathway, complement-like proteins, antimicrobial peptides, lectin like pattern-recognition molecules and lysozymes, very little is known about the innate immune response of ticks towards viral infection. This study therefore aimed to identify molecules that might be involved in the response of ticks to viral infection. The hypothesis was that TBEV infection leads to changes in the expression of immunity-related transcripts and proteins in Ixodes spp. tick cells and that at least some of these might be antiviral. Ixodes scapularis-derived cell lines IDE8 and ISE6 were chosen since I. scapularis is currently the only tick species with a sequenced genome and an Ixodes ricinus-derived cell line, IRE/CTVM19, was used because I. ricinus is the natural vector of TBEV. Basic parameters required to study the responses of tick cells to infection were determined, including levels of virus infection, kinetics of virus replication and production, formation of replication complexes and uptake of dsRNA or siRNA. The cell lines IDE8, ISE6 and IRE/CTVM19 were infected with either of two tick-borne flaviviruses, TBEV and Langat virus (LGTV), or with the mosquito-borne alphavirus Semliki Forest virus (SFV). Infection was characterised using techniques including plaque assay, luciferase assay, immunostaining and conventional, confocal and electron microscopy. Two time points for transcriptomics and proteomics analysis of TBEVinfected IDE8 and IRE/CTVM19 cells were selected: day 2 post-infection (p.i.) when virus production was increasing and day 6 p.i. when virus production was decreasing. RNA and protein were isolated from TBEV-infected and mock-infected tick cells at days 2 and 6 p.i. and RNA-Seq and mass spectrometric technologies were used to identify changes in, respectively, transcript and protein abundance. Differential expression of transcripts was determined using the data analysis package DESeq resulting in a total of 43 statistically significantly differentially expressed transcripts in IDE8 cells and 83 in IRE/CTVM19 cells, while differential protein representation using Χ2 test statistics with Bonferroni correction in IDEG6 software resulted in 76 differentially represented proteins in IDE8 cells and 129 in IRE/CTVM19 cells. These included transcripts and proteins which could affect stages of the virus infection, including virus entry, replication, maturation and protein trafficking, and also innate immune responses such as phagocytosis, RNA interference (RNAi), the complement system, the ubiquitin-proteasome pathway, cell stress and the endoplasmic reticulum (ER) stress response. After verification of sequencing data by qRT-PCR, the ability of several of the identified transcripts or proteins to affect virus infection was determined by knockdown experiments in IDE8 and IRE/CTVM19 cells using wild type LGTV, LGTV replicons or TBEV replicons. Knockdown of genes encoding proteins including the ER chaperone gp96 and the heat-shock protein HSP90 resulted in increased virus production in both cell lines, hinting at an antiviral role. In contrast, knockdown of calreticulin, another ER chaperone, resulted in a decrease in virus production in IRE/CTVM19 cells but not in IDE8 cells, implying a requirement for virus production. This functional genomics approach has identified possible novel genes/proteins involved in the interaction between flaviviruses and tick cells and also revealed that there might be antiviral innate immune pathways present in ticks additional to the exogenous RNAi pathway.

572

Alternative insulin mitogenic signaling pathways in immature osteoblast cell lines

Langeveldt, Carmen Ronel

03 1900

Thesis (MSc)--University of Stellenbosch, 2002. / ENGLISH ABSTRACT: Insulin is a mitogen for many cells and commonly signals through the classical, mitogenic Raf- MEK-ERK or metabolic PB-kinase pathways. Insulin deficiency or type I diabetes causes severe osteopenia. Obese patients with type II diabetes or insulin resistance, a disease associated with defective insulin signaling pathways and high levels of circulating insulin, have increased or normal bone mineral density. The question of whether hyperinsul inemia preserves bone mass is frequently raised. However, there is still a lot of controversy on the role of insulin as an osteoanabolic agent and this question still remains unanswered. A critical role for insulin signaling in bone building osteoblasts has recently been demonstrated with IRS-l knock-out mice. These mice developed low-turnover osteopenia due to impaired proliferation and differentiation, stressing the importance of osteoblastic IRS-l for maintaining normal bone formation. In the present study it was found that insulin does function in vitro as an osteoblast mitogen. This was illustrated in three relatively immature osteoblast (MBA-15.4, -15.6 mouse and MG- 63 human) cell lines, which responded to insulin with significant increases in proliferation. In the MBA -15.4 preosteoblasts insulin stimulation of proliferation was comparable to the welldescribed mitogen, TPA. The UMR-I06 cell line expresses markers of differentiated osteoblasts, and was much less responsive to insulin treatment. The difference in proliferative potential may be due to differences between spontaneously transformed cell lines, or the stage of cell differentiation. UOI26, a MEKI/2 inhibitor and wortmannin, a PB-kinase inhibitor, were used to investigate the pathway used by insulin to signal and activate ERK and osteoblast proliferation. In MBA-15.4 mouse preosteoblasts, GF-containing FCS was completely dependent on MEK for DNA synthesis. In contrast, in both MBA-15.4 and more mature MBA-15.6 osteoblasts, insulininduced proliferation was resistant to the inhibitors alone or in combination. Higher MEKinhibitor concentrations had no effect, and proliferation was also increased by the inhibitors in several experiments. This indicated that the classical, insulin mitogenic pathway was not involved in MBA-15.4 proliferation. Wortmannin had no effect on either insulin- or 20% FCSstimulated proliferation, but inhibited activation of Akt/PKB, the metabolic downstream target of PI3-kinase. Insul in signal ing to ERK was both MEK-and PI3-kinase- dependent, but this had no effect on proliferation. In contrast, FCS-stimulated ERK activation and proliferation was almost completely dependent on MEK-ERK activation. Proliferative signaling in the MG-63 human osteoblastic cell line in response to insulin was partially dependent on MEK and partially dependent on PB-kinase. In contrast, signaling in response to the phorbol ester, TPA, was partially dependent on PI3K but totally dependent on MEK-ERK. This indicates that the signal converges on ERK, suggesting the involvement of a PB-kinase upstream of a dominant MEK-ERK pathway. The differences found here between mouse and human insulin mitogenic signaling pathways indicate that there may be species differences between osteoblast signaling pathways, with mouse cells being independent and human cells being dependent on MEK for DNA synthesis in response to insulin. The effects of glucocorticoids on insulin mitogenic signaling in osteoblasts were also investigated, because chronic long-term steroid use results in excessive bone loss. The PTP inhibitor, sodium orthovanadate, reversed GC-impaired TPA- and FCS- induced proliferation in MBA-1SA and MG-63 preosteoblasts. PTPs, such as SHP-l and PTP-IB, dephosphorylate and inactivate phosphorylated kinases. Both SHP-l and PTPlB associated with kinases in the mitogenic signaling cascade of MBA-lS.4 preosteoblasts growing rapidly in 10% FCS. Further, SHP-I co-irnmunoprecipitated with active, tyrosine phosphorylated ERK, which may indicate that it can dephosphorylate and inactivate ERK. However, since the MEK-ERK or PB-kinase pathways are not important in insulin-induced proliferation in mouse osteoblasts, the PTPs are unlikely to be role players in the negative regulation of this signaling pathway. This was confirmed by the finding that vanadate was unable to reverse GC-induced decreases in insulinstimulated DNA synthesis. This suggests that vanadate-sensitive PTPs may not be important in the negative regulation of insulin-induced mouse osteoblast proliferation, and provides further evidence of a novel insulin mitogenic pathway in the MBA-lSA but not MG-63 osteoblastic cell line. / AFRIKAANSE OPSOMMING: Insulien is 'n mitogeen vir baie selle en gelei na binding aan die insulien reseptor, intrasellulêre seine via die klassieke, mitogeniese Raf-MEK-ERK of die metaboliese PB-kinase seintransduksie pad. 'n Insulien gebrek of tipe I diabetes veroorsaak osteopenie. Vetsugtige pasiënte met insulien weestandigheid of tipe II diabetes, 'n siekte wat geassosieer word met foutiewe insulien seintransduksie en hoë vlakke van sirkuierende insulien, het verhoogde of normale been mineraal digtheid (BMD). Die vraag of hiper insulin ernie 'n verlies aan beenmassa teëwerk word dikwels gevra. Teenstrydigheid oor die rol van insulien as 'n osteo-anaboliese stof bestaan egter steeds en hierdie vraag bly dus onbeantwoord. Dat insulien seintransduksie wel 'n kritiese rol speel in beenvormende osteoblaste is onlangs bevestig in studies met muise waarvan die geen vir IRS-l uitgeslaan is. Hierdie muise ontwikkel 'n lae omset osteopenie weens verswakte proliferasie en differensiasie. fn hierdie studie is gevind dat insulien wel in vitro as 'n osteoblast mitogeen kan funksioneer. Dit is in drie relatief onvolwasse (MBA-15.4, -15.6 muis en MG-63 mens) sellyne geillistreer, deur betekenisvolle verhogings in insulien-geaktiveerde proliferasie. In MBA-15.4 preosteoblaste is die persentasie verhoging in insulien-gestimuleerde proliferasie vergelykbaar met dié van die bekende mitogeniese forbolester, TPA. Die UMR-I06 sellyn het kenmerke van gedifferensieerde osteoblaste, en was baie minder responsief op insulien behandeling. Die verskil in die proliferasie vermoë van die verskillende sellyne kan die gevolg wees van verskille wat bestaan tussen spontaan getransformeerde sellyne of die stadium van sel differensiasie. 'n MEK 1/2 inhibitor, UO126 en 'n PB-kinase inhibitor, wortmannin, is gebruik om die insulien seintransduksie pad noodsaaklik vir die aktivering van ERK en osteoblast proliferasie te bepaal. In MBA-1S.4 muis pre-osteoblaste, was fetale kalf SenlTI1(FKS)-geinduseerde DNA sintese totaal afhanklik van MEK. Beide die MBA-15.4 en die meer volwasse MBA-15.6 muis osteoblaste was weerstandig teen die inhibitors op hulle eie, of in kombinasie. Verhoogde MEK-inhibitor konsentrasies het geen verdere effek gehad nie en in verskeie eksperimente is 'n verhoging in preliferasie selfs waargeneem met MEK-inhibisie. Hierdie resultate dui aan dat die klassieke insulien mitogeniese pad nie betrokke is in MBA-I5.4 gestimuleerde selproliferasie nie. Wortmannin het geen effek gehad op insulien- of20% FKS-gestimuleerde DNA sintese nie, maar het wel die aktivering van PB-kinase se metaboliese teiken, AktJPKB geinhibeer. Insulien seintransduksie aktiveer dus ERK deur beide MEK en PB-kinase, maar het geen effek op proliferasie gehad nie. FKS-gestimuleerde ERK aktivering en proliferasie was totaal afhanlik van MEK-ERK aktivering. Insulien-geaktiveerde DNA sintese in die mens MG-63 osteoblaste was gedeeltelik afhanklik van beide MEK en PB-kinase. Alhoewel IPA ook PB-kinase kon aktiveer, was dit totaal afhanklik van MEK vir DNA sintese. Dit dui aan dat daar 'n PB-kinase stroom-op van 'n dominante MEK-ERK seintransduksie pad voorkom. Die verskille wat ons dus waargeneem het in insulien mitogeniese seintransduksie tussen muis en mens, kan aandui dat insuliengestimuleerde seintranduksie paaie kan verskil van spesie tot spesie. Dit is bevestig met die muisselle wat onafhanklik is en mens selle wat afhanklik is van MEK aktivering vir insuliengeaktiveerde DNA sintese. Kroniese, langtermyn steroied behandeling kan beenverlies veroorsaak en die effek van glukokortikoide (GK) op die insulien mitogeniese pad in osteoblaste is dus ook ondersoek. Natrium-ortovanadaat, 'n proteien tirosien fosfatase (PIP) inhibitor het GK-verlaagde proliferasie in repons tot beide IPA- en FKS behandeling herstel in MBA-lSA en MG-63 preosteoblaste. PIPs soos SHP-l en PIP-l B funksioneer deur gefosforileerde kinases te defosforileer en dus te inaktiveer. Beide SHP-l and PIP-lB kon assosieer met kinases in die mitogeniese insulien seintransduksie pad van vinnig groeiende MBA-IS A preosteoblaste in 10% FKS. Verder het SHP-I ook geko-immunopresipiteer met aktiewe, tirosien-gefosforileerde ERK, wat aandui dat SHP-I met ERK assosieer om dit te defosforileer en inaktiveer. Die MEKERK of PB-kinase paaie is nie belangrik vir insulien-geaktiveerde seintransduksie in muis osteoblaste nie. Dit is dus onwaarskynlik dat die PIPs 'n rol sal speel in die negatiewe regulering van hierdie seintransduksie paaie. Die ontdekking dat vanadaat nie glukokortikoiedverlaagde insulien-geaktiveerde DNA sintese kan herstel nie, toon dat vanadaat-sensitiewe PIPs nie 'n rol speel in insulien-geaktiveerde proliferasie in muisselle nie. Hierdie bevinding het verder bevestig dat 'n nuwe insulien mitogeniese pad in die MBA-ISA, maar nie die MG-63 selle moontlik bestaan.

Cell lines

Insulin

Mitogens

Bones -- Growth

Bone regeneration

Osteoclasts

Dissertations -- Medicine

Theses -- Medicine

Radiosensitisation of low HER-2 expressing human breast cancer cell lines

Hamid, Mogammad Baahith

04 1900

Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: Breast Cancer remains one of the world’s leading causes of cancer related deaths amongst women. Its treatment has evolved from invasive, highly toxic therapies to treatments that possess a higher specificity and a lower toxicity. Despite improvements in overall survival, many patients do not benefit from these agents because of acquired and/or inherent tumour resistance, which could hinder treatment efficacy. Novel treatment strategies are, therefore, warranted to address these challenges and to significantly improve patient responses. Inhibiting components of the HER-2 signalling pathway can significantly sensitise breast cancer cells to low doses of ionising radiation. The objective of this study was to inhibit key molecular targets of the human epidermal growth factor receptor 2 (HER-2) signalling pathway and expose breast cancer cell lines to doses of radiation, so as to establish potential therapeutic targets that may be amenable to combined modality therapy, and formulate a cocktail of inhibitors to evaluate its radiosensitising capability. This study found that pre-treatment of two breast cancer cell lines (MDA-MB-231 and MCF-7) with a HER-2 inhibitor (TAK-165) had little or no effect on radiosensitivity. However, a radiation enhancement was observed when these cells were pre-treated either with BEZ235, a dual inhibitor of phosphoinositide 3-kinase (PI3K) and mammalian target for rapamycin (mTOR), or a cocktail of TAK-165 and BEZ235. These findings suggest that concurrent inhibition of HER-2, PI3K and mTOR during radiotherapy might improve treatment response of breast cancer patients. / AFRIKAANSE OPSOMMING: Borskanker bly steeds een van die leidende oorsake van sterftes aan kanker in vrouens. Behandeling het vanaf ‘n ingrypende, hoogs toksiese terapie verander na ‘n regimen wat hoogs spesifiek met ‘n laer toksisiteit is. Nogtans trek baie pasiënte geen voordeel uit hierdie nuwe benadering nie, omdat inherente en/of verworwe tumorweerstand daarteen suksesvolle uitkomste verhoed. Nuwe behandelingstrategieë is dus nodig om hierdie uitdagings te bekamp en om resultate in pasiënte aansienlik te verbeter. Inhibisie van komponente van die HER-2-seinoordragkaskade kan borskankerselle gevoelig maak vir lae dosisse van geïoniseerde bestraling. Die doelwit van hierdie studie was om sleutelteikens in die HER-2- seinoordragkaskade te inhibeer en om borskankerselle daarna aan bestralings dosisse bloot te stel. Sodoende word potensiële terapeutiese teikens wat vatbaar is vir gekombineerde modaliteitsterapie geïdentifiseer, waarna ‘n kombinasie van inhibitore geformuleer en geëvalueer kan word ten opsigte van hulle kapasiteit om gevoeligheid vir bestraling te verhoog. Die studie bevind dat voorbehandeling met ‘n HER-2-inhibitor (TAK-165) van borskankersellyne (MDA-MB-231 en MCF-7) min of geen invloed gehad het op stralingsensitiwiteit nie. ‘n Stralingsversterking is egter geïdentifiseer toe die selle vooraf behandel is met óf BEZ-235, ‘n tweevoudige inhibitor van fosforinositied 3-kinase (PI3K) en soogdierteiken vir rapamisien (mTOR), óf ‘n mengsel van TAK-165 en BEZ-235. Hierdie bevindinge suggereer dat gelyktydige inhibisie van die HER-2- seinoordragkaskade, PI3K en mTOR gedurende stralingsterapie moontlik die uitkoms in borskankerpasiënte kan verbeter.

HER-2 signalling pathway

UCTD

Breast -- Cancer -- Treatment

Cancer cells

Cell lines

Radiation-sensitizing agents

Toxicity evaluation and medical application of multi-walled carbon nanotubes

Zhou, Lulu

January 2015

Carbon nanotubes (CNTs) are of special interest to industry and they have been increasingly utilised as advanced nanovectors in drug/gene delivery systems. They possess significant advantages including high surface area, welldefined morphologies, unique optical property, superior mechanical strength and thermal conductivity. However, despite their unique and advanced physicochemical properties, the low compatibility of some of those materials [e.g. multiwalled CNTs (MWCNTs)] in most biological and chemical environments has also generated some serious health and environment concerns. Chemical functionalization broadens CNT applications, conferring new functions, and at the same time was found potentially altering toxicity. Although considerable experimental data related to functionalised CNT toxicity, at the molecular and cellular levels, have been reported, there is very limited information available for the corresponding mechanism involved (e.g. cell apoptosis, genotoxicity. The toxicity of carbon nanotubes has been confirmed on many cell lines including A549 (lung cancer cell line) and MRC-5 (lung fibroblasts). However, the sensitivity of each cell line in terms of cellular morphology, apoptosis and DNA damage are still unknown. In this report the different levels of cellular response to oxidative stress and phagocytosis have been investigated in A549, MCF-7 and MRC-5 cell lines to better understand the mechanisms of the toxicity pathway. siRNA as an ideal personalized therapeutics can specifically regulate gene expression, but efficient delivery of siRNA is difficult while it has been shown that MWCNTs protect siRNA, facilitate entry into cells. In this study, we comprehensively evaluated the in vitro cytotoxicity of pristine and functionalized (-OH, -COOH) multi-wall carbon nanotubes (MWCNTs), via cell viability test, reactive oxygen species (ROS) generation test, cell apoptosis and DNA mutation detection, to investigate the non-toxic dose and influence of functional group in A549, MCF-7 and MRC-5 cells exposed to 1-1000 μg/mL MWCNTs from 6 to 72 hours. In addition, 84 toxicity related genes have been detected to investigate the change of RNA regulation after treatment with MWCNTs. The research findings suggest that functionalized MWCNTs are more genotoxic compared to their pristine form, and the level of both dose and dispersion in the matrix used should be taken into consideration before applying further clinical applications of MWCNTs. Among all three cell lines, MCF-7 was the most sensitive to cell death and DNA damage induced by pristine carbon nanotubes. The majority of MCF-7 cell death was in necrotic. In A549 cells, apoptosis played a notable role in cytotoxicity. MRC-5 didn’t show significant cell loss or membrane damage, which might be explained by its low cell growth rate, notably however, a great reduction of the F-actin and attachment points was observed after treatment which indicates that MRC-5 cells are under very unhealthy condition and less attached to the bottom of flasks. Despite their toxicity, which is still being researched, carbon nanotubes have a great potential in clinical medicine. Thus, understanding the sensitivity of different cell lines could offer a more individualized approach for future treatment regimes. In regards to gene delivery, MWCNTs were found to be less toxic than chemical agents (positive control) without weakening the delivery efficiency, which proves that MWCNTs have a good potential in medicine area.

610.28

Genetic determinants of EBV infection in lymphoblastoid cell lines

Czyz, Witold Wojciech

January 2014

Epstein-Barr Virus (EBV), a ubiquitous herpesvirus that infects over 95% of the adult human population, has been implicated in the aetiology of a range of autoimmune diseases and tumours. In some of these disorders such as post-transplant B-cell lymphomas, EBV acts as a direct causal factor, in others, like Hodgkin's disease and nasopharyngeal carcinoma, it is an important co-factor. Additionally, EBV infection has been linked to several other diseases, most notably Multiple Sclerosis through positive correlation with the occurrence of Infectious Mononucleosis – a benign lymphoproliferative disease caused by primary EBV infection. The key feature of most EBV-disease associations is the ability of the virus to infect and transform human B- T- NK- and epithelial cells using a set of transcripts and proteins, some of which act as oncogenes. While it is evident that EBV viral load and gene expression may be correlated with the course of disease or even directly contributing to its pathology, the genetic determinants of EBV uptake, expression and its proliferative capacity remain unresolved. This project aimed to investigate the genetic determinants of EBV copy number and EBV latency gene expression for human B-cells immortalised by EBV in vitro and transformed into permanently growing lymphoblastoid cell lines (LCLs), as a model for early-stage EBV infection in naïve B-cells. LCL samples studied have been sourced from several different populations, the HapMap Project, the 1000 Genomes Project as well as British MRC-A family cohort. Methods used encompass quantification of viral expression and copy number using TaqMan and SybrGreen PCR techniques, followed by statistical association tests conducted using Plink, Merlin and MatrixEQTL. EBV QTLs identified by the assays were next subjected to a meta-analysis in GWAMA. Two most significant eQTLs were also selected for a replication experiment in an independent panel of newly generated LCLs and validated in peripheral blood B-cells sourced from the same donors. Multiple significant and suggestive expression and copy number QTLs were identified. However, most of these associations have not been replicated in more than a single cohort. The relatively small sample size of most cohorts tested as well as population structure posed a limitation. Some findings merit attention, particularly the presence of statistically significant viral eQTLs within or close to CSMD1 locus in two different cohorts, and finding of a significant EBV eQTL in a SNP associated with type 1 diabetes risk and located close to IL2RA, an immune-response gene harbouring multiple autoimmune disease risk loci. Suggestive associations were also identified in the 1000 Genomes Project samples by the copy number assay which resulted in the most robust test conducted. These encompassed an association to the PRDM9 locus as well as to a gene involved in TGF-β secretion. This is particularly interesting since TGF-β signal promotes lytic replication in EBV-infected B-cells and a consistent significant correlation between EBV lytic expression and increased viral copy number has been identified. In conclusion, although no significant association has been consistently replicated, the project provided several suggestive EBV QTL candidates with plausible biological links to EBV infection and replication, which could be studied further in independent experiments.

616.99

Studium interakce antimikrobiálních peptidů s tkáňovými kulturami / Study of interaction of antimicrobial peptides with cells in culture

Kroupová, Hilda

January 2010

In English The thesis deals with research of novel antimicrobial peptides (AMP) Halictines (HAL-1, GMWSKILGHLIR-NH2 a HAL-2, GKWMSLLKHILK-NH2) and their structural analogs isolated from the venom of the wild bee Halictus sexcinctus. The structure and antimicrobial activity of these peptides had been described earlier [1]. The goal of this diploma thesis is to find peptide which is strongly toxic only for cancer cells and nontoxic for normal cells. Using of the fluorescent marked peptides we aimed to acquire the information about mechanism of action of the studied peptides on the cells. Using the MTT test (determination of valuation IC50), the toxicity of HAL-1 and HAL-2 and their analogs against 2 normal cell lines (Human umbilical vein endothelial cells, HUVEC, and normal rat intestinal cells, IEC) and against 2 cancer cell lines (cancer cells of suppository uterine, HeLa-S3 and cancer cells of human colorectal carcinoma, CRC SW 480) was determined. First we tested antimicrobial peptides with antimicrobial activity and low hemolytic activity. For verification the toxicity of less active analogs was also determined. We found out that the HeLa-S3 cells are the most sensitive to these peptides. The most toxic peptides (HAL-1/9, HAL-1/18, HAL-2/2) kill 50% of cells in the concentration 2,5 - 10 µM. To obtain...