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A morphological study of the dermal fibroblastMazyala, Eric John 12 1900 (has links)
Thesis (MScMedSc (Biomedical Sciences. Anatomy and Histology)--Stellenbosch University, 2008.
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Ancillary methods to improve diagnostic accuracy of thyroid nodules on fine-needle aspiration cytology smearsVan Wyk, Christine 12 1900 (has links)
Thesis (MScMed (Dept. of Biomedical Sciences. Anatomy and Histology) --University of Stellenbosch, 2007. / Thyroid nodules are a common clinical problem encountered by physicians, surgeons and radiologists who deal with the head and neck region. However, most follicular lesions of the thyroid are benign, so that the indications for surgery should be as accurate as possible. The morphological difficulty on fine-needle aspiration biopsy (FNAB) of reliably distinguishing preoperatively between benign and malignant lesions has led to a search for ancillary methods that can assist with the diagnosis.
The aim of the first study was to develop a cytological scoring system to improve diagnostic accuracy of fine-needle aspiration biopsy of papillary carcinomas with special reference to the follicular variant of papillary carcinoma. The objective of the second study was the application of immunodiagnostic markers Galectin-3 and HBME-1 to histology tissue sections and their corresponding fine-needle aspiration cytology smears to assess their value in distinguishing benign from malignant thyroid lesions.
In the first study 16 different cytological features such as background, architecture and cellular morphology were quantatively assessed and scored. Only 14 of the 16 variables were statistically significant. The statistical analysis demonstrated that a score ≥ 4 was indicative of a papillary carcinoma with a sensitivity of 96%. A score < 4 suggested a benign multinodular goiter with a specificity of 97%.
In the second study Galectin-3 and HBME-1 were applied to histology tissue sections and their corresponding fine-needle aspiration cytology smears. Statistical analyses showed that the sensitivity of immunohistochemistry for diagnosing malignancy was better than the immunocytochemistry, but the specificity of immunocytochemistry was superior. Furthermore the diagnostic accuracy of immunohistochemistry (86%) and immunocytochemistry (88%) using co-expression of these two antibodies was excellent. In this study on immunocytochemistry, papillary carcinomas were clearly identified with a 100% co-expression in the classic and 71% in the follicular variant of papillary carcinoma. For the surgeon the identification of papillary carcinoma is critical, as this determines the extent of surgery. Similary, the confirmation of a non-neoplastic lesion may prevent surgery. In most cases follicular neoplasms, benign or malignant, will usually be excised for histopathology, prior to definite therapy.
These studies show that the implementation of ancillary methods such as a scoring system and immunodiagnostic markers can improve the diagnostic accuracy of thyroid fine-needle aspiration biopsies in our laboratory. This may lead to better management of thyroid nodules. However, it is advisable that cytopathologists always take all the clinical features and image analyses into consideration before making a diagnosis.
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A histological and morphometric assessment of endocrine and ductular proliferation in the adult rat pancreas using an occlusive pancreatic duct ligation modelPage, Benedict J. (Benedict John) 03 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2000. / ENGLISH ABSTRACT: Diabetes Mellitus (DM) is synonymous with "B-cell failure". Ligation of the pancreatic
duct distally to its confluence into the bile duct has been shown to induce endocrine
tissue regeneration from a number of probable sources. The cells responsible for
regeneration are supposed to possess either dormant pluripotent stem cell ability and/or
the plasticity to undergo metaplasia to form new and surplus endocrine tissue able to
replace pathologically and/or experimentally compromised pancreas. The sequence of
events (cell lineage) during this process of neogenesis, has been the source of
controversy for quite some time as various studies suggest that the cell lineage differs
from in vivo and in vitro studies, according to experimental model and species of
laboratory animal.
The object of this study was to utilise an established experimental laboratory animal
model to study islet morphological changes, neogenesis and or both in vivo. Further
aims of the study were to determine the extent, sequence and magnitude of pancreatic
duct ligation (PDL) induced endocrine neogenesis/morphogenesis in a laboratory rat
model using occlusive pancreatic duct ligation.
PDL's were performed on six groups of 25 normal adult Sprague-Dawley (SD) rats
(300g+) according to the method of Hultquist and Jonsson (1965). Experimental
animals were sacrificed at 12 hr intervals from day one post-PDL to day 10 and every
24 hrs thereafter to day 14 as described by Wang, Klëppel, Bouwens (1995). Animals
received BrdU (a thymidine marker and cell proliferation indicator) 50mglkg
intraperitoneally as described by Wang et al. (1995), one hour prior to removal of the
pancreas after which it was fixed in Bouin's solution and histologically processed.
Seven consecutive 3-6 urn thick serial sections were sequentially stained with H & E,
insulin (I), glucagon (G), somatostatin (ST), pancreatic polypeptide (PP), neuropeptide
tyrosine (NPY) and peptide tyrosine tyrosine (PYY). Immunolabeling was done
according to the method of Guesdon, Temynck , Avrameas (1979). Double
immunolabeling for BrdU and each pancreatic peptide was performed on the sections
on days 3,5, 7, 9 and 11 as described by Wang et al (1994). Cellular transformation between one and 3Yz days was characterised by simultaneous
total deletion and/or transdifferentiation of the acinar compartment and the appearance
of immunoreactive cells for I (11.53 ±1.5%), G (1.85 ±0.8%), pp (1.50 ±0.09%), and
ST (1.96 ±0.24%). Changes in the endocrine composition in existing islets, occurred
along a pathway that saw PP- and ST-cells invading the islet core, islet mantle glucagon
deletion and random appearance of all endocrine cell types within the inter-islet
interstitium on day 3Yz. Days 4 to 6Yz saw further endocrine expansion while days 7 to
14 were distinguished by islet reconstitution and consolidation. NPY immunoreactivity
appeared on day 4Y2 and persisted intermittently throughout while PVV first appeared
on day 4 and disappeared after day 7Yz.
The results suggest that PDL firstly induced the development of endocrine tissue
distributed haphazardly throughout the space previously occupied by acinar parenchyma.
Secondly, the appearance of insulin is preceded by the appearance of PP, glucagon and
somatostatin by 24-hours. A still to be determined proportion of the ligation induced
endocrine formation appeared to be associated with existing islets, resulting in a number
of very large islets, some of which might have secretory access through the glomerularlike
capillary network known to occupy the islet core. The remainder appeared to form
separate "new" islets, which have a dubious access to the blood stream.
In conclusion, if it is true that the pancreas can regenerate some of its endocrine tissue
then it has potential clinical implication for the stabilising of diabetes mellitus. Ligated
exocrine pancreatic tissue, devoid of its acinar component, has been shown to contain
notable quantities of insulin positive cells. This presents intriguing possibilities as an
alternative for donor tissue, usually obtained from rat foetuses, during foetal rat pancreas
transplantation studies. Pancreas tissue harvested from duct ligated rats could replace
the foetal tissue currently used in the treatment of experimental diabetes mellitus in
laboratory animals in this laboratory. / AFRIKAANSE OPSOMMING: Diabetes Mellitus is sinoniem met B-sel disfunksie. Endokriene regenerasie kan
segmenteel bewerkstellig word deur eksperimentele afbinding van die pankreasbuis
distaal tot sy samesmelting met die gemene galbuis. 'n Verskeidenheid van selle word
vermoedelik by hierdie proses betrek. Dormante stamselle besit die vermoë en/of
plastisiteit om 'n aantal vorms van metaplasie te ondergaan om nuwe en/of oortollige
endokriene weefsel te vorm wat patologiese en/of eksperimenteel gekompromiseerde
weefsel vervang. Die selontwikkelings volgorde wat tydens hierdie proses plaasvind
is al vir 'n geruime tyd die middelpunt van 'n meningsverskil. Sommige studies dui
daarop dat die in vivo selontwikkelingsvolgorde verskil van in vitro, volgens
eksperimentele model en tipe proefdier gebruik.
Die doel van die studie was die gebruik van 'n bestaande eksperimentele laboratorium
proefdier model om pankreas eiland morfologiese verandering en/ofneogenese of beide
in vivo te evalueer. Die oogmerk van die studie was om die omvang en volgorde van
veranderings in die endokriene kompartement (neogenese/morfogenese) te bepaal deur
gebruik te maak van 'n pankreas buis afbindings (PBA) model wat totale afsnyding van
die buis tot gevolg het.
PBA's is uitgevoer op ses groepe van 25 volwasse normale Sprague-Dawley (SD)
laboratorium rotte (±300g) soos beskryf deur Hultquist en Jonsson (1965). Proefdiere
is elke 12 uur geoffer vanaf dag een post-PBA tot dag tien en elke 24 uur daarna tot dag
14 soos beskryf deur Wang, Bouwens, Kloppel (1995) na die toediening van 50 mg/kg
5-Bromo-2-deoksi-uridien intraperitoneaal ('n selprolifererings aanduider) soos beskryf
deur Wang et al. (1995). Die pankreas is werwyder, in Bouin se oplossing gefikseer en
histologies geprosesseer. Sewe openvolgende seriesnitte (3-6 urn) is alternatiewelik
gekleur met H & E, en immunositochemies, soos beskryf deur Guesdon, Terugnek,
Avrameas (1979), vir insulien (I), glukagon (G), somatostatien (ST), pankreatiesepolipeptied
(PP), neuropeptied tirosien (NPY) en peptied tirosien-tirosien (PYY). BrdU
dubbel-immuunkleuring is ingesluit op dae 3,5, 7, 9 en 11 soos beskryf deur Wang et
al. (1994). Sellulêre transformasie tussen dae een en 3~ dae is gekenmerk deur gelyktydige en
totale uitwissing en/ofmetaplasie van die asinêre kompartement en die verskyning van
selle immunorektiefvir I(11.53 ±1.5%), G (1.85 ±0.8%), PP (1.50 ±0.09%), ST (1.96
±0.24%). Metaplasie was verantwoordelik vir merkbare veranderings in bestaande
endokriene weefsel langs In transformasie weg waar eiland insulien kemselle vervang
is deur PP- en ST-selle, glukagon buitelaag uitwissing en die toevallige verskyning van
alle endokriene seltipes in the inter-eiland interstitium teen dag 3Y2. Dae 4Y2deur 6~
is gekenmerk deur verdere endokrinetoename terwyl dag 7 deur 14 gekenmerk is deur
eiland hersamestelling en konsolidering. NPY immunoreaktiwiteit was vanaf dag 4~,
met afwisseling, te bespeur terwyl PVV slegs tussen dae 4 en 7 In verskyning gemaak
het.
. Die resultate suggereer eerstens, PBA induseer die ontwikkeling van oortollige
endokriene weefsel op In lukrake wyse versprei deur die ruimte voorheen deur asinêre
parenchiem beset. Tweedens, dat die verskyning van insulien deur dié van PP,
glukagon en somatostatien met minstens 24-uur voorafgegaan is. Die verhouding, van
nuutgevormde endokriene weefsel wat met bestaande eilande assosieer om In aantal baie
groot eilande te vorm, moet nog vasgestel word. Sulke strukture mag moontlik
afskeidings toegang hê tot die bloedstroom, deur die glomerulusagtige kapillêre netwerk,
in die eilandkern teenwoordig terwyl die oorblywende nuutgevormde endokrine weefsel
"nuwe" apparte eilande vorm wat wel of gladnie toegang tot die bloedstroom mag hê nie.
As gevolgtrekking, indien dit waar is dat volwasse pankreas eilandweefsel wel
regenerasie kan ondergaan, dan het dit kliniese implikasie vir die stabilisering van
diabetes mellitus. Weefsel verkry uit PBA bevat geen asinêre weefsel nie maar wel
merkbare hoeveelhede endokriene weefsel, veral insulin positief. Dit bied dan
interessante alternatiewe as skenker weefsel by fetal rot pankreas oorplantings. PBA
en/of die oorplanting van pankreasbuis afgebinde weefsel, na in vitro weefsel kultuur,
bied moontlikhede vir die behandeling van diabetes mellitus.
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β-cell response to high fat diet induced metabolic demands in the obese Wistar ratRoux, Candice Rene 03 1900 (has links)
Thesis (MScMedSc)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: Introduction: A westernized diet rich in saturated fats and sugars, together with a sedentary lifestyle, has contributed to the dramatic increase in obesity during the last decade (Zimmett et al, 2001; Wild et al, 2004). Obesity is associated with dyslipidemia and insulin resistance which are major risk factors for the development of type 2 diabetes (T2D) (Zimmet et al, 2001, Kahn et al, 2006; Schröder et al, 2007). High-fat feeding in rodents induces symptoms similar to the human metabolic syndrome without progression to T2D (Woods et al, 2002; Weir and Bonner-Weir, 2007). The addition of fructose to a high-fat diet exacerbates the insulin resistance and leads to impaired pancreatic function of insulin secretion and glucose intolerance (Basciano et al, 2005; Stanhope et al, 2009).
Aims: The aim of this study was to establish the effect of a high-fat and sucrose/fructose diet on glucose metabolism, the development of insulin resistance and β-cell dynamics.
Methods: Weanling Wistar rats were randomized into two study groups; study one over an experimental period for three months and study two for twelve months. Each study consisted of a control group that received standard rat chow and water; and two experimental groups receiving either a high-fat diet and water (HFD) or a café diet consisting of HFD with the addition of 15% sucrose/fructose (CFD). Fasting glucose and insulin concentrations, intravenous glucose tolerance test (IVGTT), glucose stimulated insulin secretion rates and 2-deoxy-[3H]-D-glucose uptake in muscle, liver and fat were measured. The pancreata were harvested for immunohistochemical labeling of β-cells (insulin), α-cells (glucagon), GLUT2 (glucose transport) and MIB5 (proliferation). Samples of the pancreata were also collected for electron microscopy.
Results and discussion: Feeding Wistar rats a CFD induced obesity, insulin resistance and glucose intolerance. By twelve months the rats had an impaired glucose response with increased IVGTT peak values, area under the curve (AUC) values and glucose clearance rates. Concomitantly, the glucose stimulated insulin secretion rate (GS-ISR) was attenuated. Stimulated glucose disposal as measured by 2-deoxy-[3H]-D-glucose uptake was reduced in muscle and adipose tissue at three months. By twelve months, due to the age of the rats, stimulated glucose uptake declined compared to three months with no difference between groups. After three months the diets had no observable effect on the islets using light microscopy. However, by twelve months morphological changes were observed in both the HFD and CFD groups. In the HFD group large hypertrophied irregular islets with fibrous changes were observed. In the CFD group these morphological changes were more prominent with fibrous segregation and disruption of the normal endocrine arrangement. In addition, the presence of inflammatory cells within the affected islets is consistent with T2D.
Conclusion: High-fat diet fed to Wistar rats induced obesity, abdominal adiposity and insulin resistance. The addition of sucrose/fructose to a high-fat diet exacerbated the insulin resistance and resulted in glucose intolerance and mild hyperglycemia. Morphological changes in the large islets were observed which are consistent with the development of T2D. / AFRIKAANSE OPSOMMING: Inleiding: ‘n Verwesterde dieët, ryk aan versadigde vette en suikers tesame met 'n passiewe lewenstyl, het bygedra tot die dramatiese verhoging in vetsug gedurende die laaste dekade (Zimmett et al, 2001; Wild et al, 2004). Vetsug word met dislipidemie en insulienweerstandigheid geassosieer wat hoof risikofaktore is vir die ontwikkeling van tipe 2 diabetes (T2D) (Zimmet et al, 2001; Kahn et al, 2006; Schröder et al, 2007). Hoë-vet voeding in knaagdiere induseer simptome soortgelyk aan menslike metaboliese sindroom sonder die ontwikkeling van T2D (Woods et al, 2002; Weir and Bonner-Weir, 2007). Die byvoeging van fruktose tot 'n hoë-vet dieët vererger insulienweerstandigheid en lei tot verswakte pankreas funksie, insuliensekresie en glukoseintoleransie (Basciano et al, 2005; Stanhope et al, 2009).
Doelwitte: Die doelwitte van die studie was om die effek van hoë-vet en sukrose/fruktose voeding op glukosemetabolisme, die ontwikkeling van insulienweerstandigheid en β-sel dinamika te bepaal.
Metodes: Gespeende Wistar rotte was in twee groepe gerandomiseer; studie een oor ʼn tydperk van drie maande en studie twee oor ʼn tydperk van twaalf maande onderskeidelik. Elke studie het 'n kontrole groep met standaard rot kos en water (control); en twee experimentele diëte wat of ʼn hoë-vet dieët en water (HFD) of 'n kafeedieët groep wat die HFD met die byvoeging van 15% sukrose/fruktose in hul drink water (CFD) ontvang. Fastende glukose en insulien, binneaarse glukose toleransie toets (IVGTT), glukose gestimuleerde insulien sekresie tempo en 2-deoxi-[3H]-D-glukose opname in spier, lewer en vet is gebruik om die effek van die dieët op glukosemetabolisme te bepaal. Die pankreata is uitgehaal vir immunohistochemiese identifisering van β-selle (insulien), α-selle (glukagoon), GLUT2 (glukose transport) en MIB5 (proliferasie). Monsters van die pankreata was ook vir elektronmikroskopie versamel.
Resultate en bespreking: Voeding van ʼn CFD aan Wistar rotte induseer vetsug, insulienweerstandigheid en glukose-intoleransie Teen twaalf maande toon die rotte 'n verswakte respons tot glukose met verhoogde IVGTT piekwaardes, AUC waardes en glukose opruimingswaardes. Terselfdetyd is die glukose gestimuleerde insuliensekresie tempo (GS-ISR) ook verswak. Gestimuleerde glukose opruiming, soos deur 2-deoxi-[3H]-D-glukose opname bepaal, was verlaag in spier en vetweefsel teen drie maande. Teen twaalf maande, weens die ouderdom van die rotte, is die gestimuleerde glukose opname verlaag in vergelyking met drie maande sonder 'n verskil tussen groepe. Na drie maande kon geen sigbare morfologiese verskille met ligmikroskopie tussen die diëte waargeneem word nie. Teen twaalf maande is morfologiese verskille waargeneem in beide die HFD en die CFD groepe. In die HFD groep is groot hipertrofiese onreëlmatige eilande met fibrotiese verandering waargeneem. In die CFD groep was die morfologiese verandering meer gevorder met fibrotiese onderverdeling en ontwrigting van die normale endokriene rangskikking. Die teenwoordigheid van inflammatoriese selle in die geaffekteerde eilande is verenigbaar met T2D.
Afleiding: Die voer van 'n hoë-vet dieët aan Wistar rotte veroorsaak vetsug, abdominale adipositeit en insulienweerstandigheid. Die byvoeging van sukrose/ fruktose tot die hoë-vet dieët vererger die insulienweerstandigheid en veroorsaak glukoseintoleransie en matige hiperglukemie. Morfologiese veranderings in die groter eilande was verenigbaar met T2D.
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The antidiabetic and antioxidant properties of Athrixia phylicoides aqueous extract : an in vitro and ex vivo assessmentChellan, Nireshni 03 1900 (has links)
Thesis (MScMedSc)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: Introduction: Athrixia phylicoides is an aromatic, indigenous shrub with high antioxidant content and numerous indigenous medicinal properties inferred by ingestion of an herbal brew of the plant. Commercialization of “bush tea” (derived from A. phylicoides) holds economic and developmental potential for indigenous communities provided the safety and efficacy of the herbal tea is established. Recently A. phylicoides has been shown by McGaw et al. (2007) to have similar antioxidant activity to Rooibos tea, and a unique, new flavonol (i.e. a polyphenolic antioxidant plant metabolite) 5-hydroxy-6,7,8,3′,4′,5′-hexamethoxyflavon-3-ol, unique to A. phylicoides, was isolated by Mashimbye et al. in 2006. With changes in the socio-economic climate and a new trend in merging Western lifestyle with traditional practices, new interest has been shown in herbal/natural remedies.
Study Aim: The aim of this study was to firstly, determine the in vitro effect of A. phylicoides aqueous extract on glucose metabolism in cell lines that mimic the three key organs implicated in glucose homeostasis. Secondly, the study aimed to determine the potential ex vivo antioxidant and anti-inflammatory effect of the extract in pancreatic β-cells and peripheral mononuclear cells respectively.
Methods: Leaves and fine twigs of A. phylicoides were processed into an aqueous extract. C2C12, Chang and 3T3-L1 cells were cultured under standard conditions and acutely exposed to increasing concentrations of extract and water vehicle, as well as 1 μM insulin and metformin as positive controls. Glucose uptake from 8 mM glucose culture media was determined using a fluorimetric oxidase method. Radioactive 14C-glucose oxidation to 14CO2 and determination of glycogen content of cells were used to assess the fate of intracellular glucose. RT-PCR was used to assess the extract effect on insulin-signalling gene expression. The antioxidative effect of A. phylicoides extract in pancreatic β-cells isolated from Wistar rats was determined by measuring nitric oxide (NO) production in response to hyperglycemic conditions. NO was labelled with diaminofluorocein diacetate and fluorescence was measured using flow cytometry. Insulin secretion of pancreatic β-
cells was measured using radio-immuno assay. The anti-oxidative effect of the extract in lipopolysaccharide-stimulated peripheral mononuclear cells isolated from Wistar rats was determined by measuring the production of TNF-α using an ELISA kit.
Results: C2C12 myocytes showed maximal increased glucose uptake at the 0.05 μg/μl extract concentration (228.3% ± 66.2, p<0.001). In Chang cells, A. phylicoides extract maximally increased the amount of glucose taken up at the 0.05 μg/μl concentration (134.5% ± 2.5, p<0.05). In 3T3-L1 cells, the extract maximally increased the amount of glucose taken up at the 0.025 μg/μl concentration (143.5% ± 10.3, p<0.001). An extract-induced increase in insulin receptor and glucose transporter four expression was seen in C2C12 myocytes. The oxidation of 14C-glucose to 14CO2 by C2C12 myocytes was maximally increased following acute exposure to the extract at 0.1 μg/μl (2919.3 fmol/1x10^6 cells ± 428, p<0.01). The oxidation of 14C-glucose to 14CO2 by Chang cells was maximally increased following acute exposure to extract at 0.1 μg/μl (4476.7 fmol/1x10^6 cells ± 1620, p<0.05); as seen in the C2C12 cells. A. phylicoides extract increased glycogen storage at all three concentrations tested in Chang cells, but maximally at the 0.025 μg/μl concentration (13.6 μg/1x10^6 cells ± 0.7, p<0.05). A. phylicoides extract did not have any measurable effect on the oxidative status of β-cells or the anti-inflammatory status of peripheral mononuclear cells. The extract did show an increase in first phase insulin secretion of β-cells in hyperglycemic conditions, although it was not significant.
Conclusion: Athrixia phylicoides aqueous extract stimulates in vitro glucose uptake and metabolism in an insulin-mimetic manner, suggesting that this extract could potentially be beneficial to type two diabetics as an adjunct therapy. / AFRIKAANSE OPSOMMING: Inleiding: Athrixia phylicoides is 'n aromatiese, inheemse struik met 'n hoë antioksidant inhoud. Vele tradisionele medisinale eienskappe is gekoppel aan die ingestie van 'n kruie brousel van die plant, wat ook bekend as “bostee” is. Kommersialisering van “bostee” hou ekonomiese en ontwikkelings potensiaal in vir inheemse gemeenskappe mits die veiligheid en effektiwiteit van die kruietee bevestig kan word. McGaw et al. (2007) het onlangs bevind dat A. phylicoides se antioksidant aktiwiteit vergelykbaar is met die van rooibostee. 'n Unieke nuwe flavonol ('n polifenoliese antioksidant plant metaboliet) 5-hydroksie-6,7,8,3′,4′,5′-hexamethoksieflavon-3-ol, eie aan A. phylicoides, is deur Mashimbye et al. in 2006 geïsoleer. Met veranderings in die sosio-ekonomiese klimaat en 'n nuwe tendens om die westerse lewenstyl met tradisionele gebruike aan te vul word nuwe belangstelling in kruie/natuurlike rate ondervind.
Studie Doelwitte: Die doelwitte van hierdie studie was eerstens om die in vitro effek van A. phylicoides waterekstrak op die glukosemetabolisme van drie sellyne wat die sleutel organe naboots wat glukosehomeostase beheer, te bepaal. Tweedens, is die potensiële ex vivo antioksidant en anti-inflammatoriese effek van die ekstrak op pankreatiese β-selle en perifere mononuklêere-selle onderskeidelik ondersoek.
Metodes: n Waterige ekstrak is van die blare en fyn takkies van A. phylicoides berei. C2C12, Chang and 3T3-L1 selle is gekultuur onder standaard kondisies en akuut blootgestel aan stygende ekstrakkonsentrasies. Water het as kontrole gedien, met 1 μM insulien en metformien as positiewe kontroles. Glukose opname vanuit 8 mM glukose kultuurmedia is bepaal deur 'n fluorimetriese oksidase metode. Radioaktiewe 14C-glukose-oksidasie na 14CO2 en die bepaling van die glukogeen inhoud van selle is gebruik om die lot van intrasellulêre glukose te bepaal. RT-PKR is gebruik om die effek van die ekstrak op die insulien-seinpad geen-uitdrukking te ondersoek. Die antioksidant effek van A. phylicoides ekstrak in pankreatiese β-selle geïsoleer van Wistar rotte, is bepaal deur
stikstofoksied (NO) produksie na aanleiding van hiperglukemiese kondisies. NO is met diaminofluorosien diasetaat gemerk en die fluoresensie gemeet deur vloeisitometrie. Insulien afskeiding deur die pankreatiese β-selle is deur radio-immuno metode bepaal. Die anti-oksidatiewe effek van die ekstrak op lipopolisakkaried-gestimuleerde perifere mononuklêere-selle afkomstig van Wistar rotte is bepaal deur die meting van TNF-α produksie met 'n ELISA kit.
Resultate: C2C12 miosiete het 'n maksimale toename in glukoseopname by 'n 0.05 μg/μl ekstrakkonsentrasie (228.3% ± 66.2, p<0.001) gehad. Dieselfde ekstrakkonsentrasie het maksimale toename in glukoseopname in Chang selle (134.5% ± 2.5, p<0.05 getoon. In 3T3-L1 selle is maksimale toename in die glukoseopname by 'n konsentrasie van 0.025 μg/μl (143.5% ± 10.3, p<0.001) bereik. 'n Ekstrak-geinduseerde verhoging in die insulienreseptor en glukosetransporter vier ekspressie is in C2C12 miosiete waargeneem. Die oksidasie van 14C-glukose na 14CO2 deur C2C12 miosiete is maksimaal verhoog deur akute blootstelling aan die ekstrak by 'n konsentrasie van 0.1 μg/μl (2919.3 fmol/1x10^6 cells ± 428, p<0.01). Die oksidasie van 14C-glukose na 14CO2 deur Chang selle was maksimaal verhoog deur akute blootstelling aan die ekstrak by 'n konsentrasie van 0.1 μg/μl (4476.7 fmol/1x10^6 cells ± 1620, p<0.05) soos gevind in die C2C12 selle. Die ekstrak het glukogeenstoring verhoog teen al drie die konsentrasies waarteen getoets is in Chang selle, maar 'n maksimale effek is gevind by 'n konsentrasie van 0.025 (13.6 μg/1x10^6 cells ± 0.7, p<0.05). A. phylicoides ekstrak het nie 'n meetbare effek op die oksidatiewe status van β-selle of die anti-inflammatoriese status van perifere mononuklêere-selle gehad nie. Die ekstrak het wel 'n verhoging in die eerstefase insuliensekresie van β-selle in hyperglukemiese kondisies gehad, alhoewel die verhoging nie statisties betekenisvol was nie.
Afleiding: Athrixia phylicoides waterekstrak stimuleer in vitro glukoseopname en metabolisme in 'n insulin-mimetiese manier, wat beteken dat die ekstrak potensiëel voordele vir tipe twee diabete kan inhou as aanvullingsterapie.
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Cellular mechanisms involved in the recapitulation of endocrine development in the duct ligated pancreasTchokonte-Nana, Venant 03 1900 (has links)
Thesis (PhD)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: Diabetes mellitus is amongst the leading causes of morbidity and mortality in the world, affecting
young, adult and old people. Beta cell replacement therapy for insulin delivery remains the ultimate
remedy for diabetes. However, insufficient donor pancreas and the use of immunosuppressive drugs
prevent the wide-spread of this therapy. Other avenues of self generated beta cells within the organ
itself need to be explored. Therefore, understanding the chronobiology of cellular mechanisms in
the lineage of beta cell induced neogenesis is a valuable tool in improving beta cell replacement in
patients with diabetes. The aim of this study was to induce recapitulation of the morpho-genetic
sequence of endocrine cells development in the pancreas of rats after the pancreatic duct ligation
(PDL) procedure. Serial sections of PDL tissues of the pancreas were obtained from 78 Sprague-
Dawley rats and were assessed morphologically. The immunofluorescent tissues were statistically
analysed using a computerized morphometry technique. The protein expression indices of
Caspase3, Insulin, Pdx1, Ngn3, NeuroD and Pax6 were quantified. The efficiency levels of coexpression
of these homeodomain proteins separately with insulin were defined by the ratio of the
mean value of insulin expression to the mean value of their respective protein expression. The
morphological changes were characterized by the appearance of granulated acinar cells at 6 hours
post-PDL and the proliferation of endocrine tissues from 84 hours through to 120 hours. The
morpho-immunofluorescent evaluation showed the highest immunoreactivity of Caspase3 and Pdx1
at 6 hours, Ngn3 at 36 hours, Pax6 and insulin at 84 hours while NeuroD expression was at 120
hours. The immunohistofluorescent analysis showed that caspase3 and Pdx1 were the first to be
expressed at 6 hours while the insulin and NeuroD expression appeared later at 84 hours and 120
hours, respectively. However, Pax6 expression was continuous across time periods post-PDL, while
Ngn3 expression showed a peak at 36 hours. The efficiency (highest and earliest expression) of co-expression of all these homeodomain proteins with insulin was restricted between 12 hours and 24
hours. The optimal efficiency was at 12 hours by Ngn3 with insulin. A good efficiency was shown
for Pdx1 with insulin, NeuroD with insulin and Pax6 with insulin at 12 hours and 24 hours,
respectively. A low efficiency was observed for insulin and caspase3 co-expression at 24 hours.
This study suggests that for transplantation, PDL tissues harvested at an early time post-PDL
(between 12 and 24 hours) could yield a higher success rate; the study also provides evidence for a
connection between morphological changes in the PDL pancreas and the protein synthesis
necessary for the lineage of endocrine cell development. / AFRIKAANSE OPSOMMING: Diabetes Mellitus resorteer onder die vernaamste oorsake van morbiditeit en mortaliteit wêreldwyd,
en tuister jongmense, volwassenes en bejaardes. Daar bestaan egter ‘n wêreldwye tekort aan
skenkerorgane met immuun-onderdrukingsterapie as ondersteuningsbehandeling. Beta-sel
vervangingsterapie, vir die voorsiening van insulien, bly daarom die voorkeur behandeling vir die
siekte wat noodsaak dat die wetenskap kyk na alternatiewe behandelingsregimens wat meganismes
rondom orgaanregenerasie insluit. Begrip van die chronobiologie van die sellulêre meganismes
betrokke rondom beta-sel ontwikkeling mag waardevolle lig werp op die neogenese van beta-selle
wat gevolglik daartoe mag lei dat beta-sel vervanging as ‘n moontlike behandelingsterapie oorweeg
mag word vir pasiënte met suikersiekte. Die oogmerk van hierdie studie is om die rekapitulasie van
die morfo-genetiese volgorde van die endokriene pankreas na afbinding van die pankreasbuis te
bepaal. Pankreasbuis afbinding is op 78 Sprague-Dawley laboratorium rotte onder algemene
narkose uitgevoer, die pankreas is na voorafbepaalde tydsvakke verwyder en in histologiese
seriesnitte gesny. Snitte is immunositochemiese gekleur en morfometries assesseer. Die
afskeidingsindeks vir selboodskappers vir Caspase3, Insulien, Pdx1, Ngn3, NeuroD en Pax6 is
kwantifiseer. Die gelyktydige afskeiding van elk van bogenoemde boodskappers tesame met
insulien is omskryf as ‘n verhouding tot mekaar en in terme van dié van insulien. Die morfologiese
verandering in die weefsel bespeur is gekenmerk deur die verskyn van gegranuleerde asinêre selle
ses (6) ure na buisafbinding en die proliferasie van endokriene weefsel vanaf vier-en-tagtig (84) ure
deurlopend tot een-honderd-en-twintig (120) ure. Die morfo-immunofluoresserende evaluering
toon dat Caspase3 en Pdx1 by 6 uur die hoogste is, die van Ngn3 by 36 ure, Pax6 en insulien by 84
ure en NeuroD by 120 ure. Verder toon die analise dat Caspase3 en Pdx1 rondom 6 ure hul
verskyning gemaak het terwyl dié van insulien en NeuroD eers rondom 84 tot 120 uur verskyn het.
Die verskyning van Pax6 het deurlopend regoor al die tydsduurtes verskyn en Ngn3 het rondom 36
uur sy hoogste vlak bereik. Die gelyktydige uitdrukking van homeodomein proteïene tesame met
insulien het slegs tussen die tydperke van 12 en 24 ure plaasgevind. Die uitdrukking van Pdx1 met
insulien, NeuroD met insulien en Pax6 met insulien het almal tussen 12 en 24 ure plaasgevind.
Caspase3 tesame met insulien is slegs by die 24 uur tydsperiode bespeur. Vir die oorplant van
pankreas weefsel wat aan buisafbinding onderwerp is suggereer hierdie studie dat die geskikste tyd
vir die oes van endokriene weefsel liewer vroeër (12 to 24 ure) as later uitgevoer behoort te word.
Verder wil dit voorkom of hierdie tydsperiode ook die hoogste seltelling lewer. Die studie lewer
waardevolle inligting oor die verwantskap tussen die morfologiese veranderings wat na
buisafbinding plaasvind en die proteïen sintese wat sel-opvolgontwikkeling bevorder.
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