Podridão floral dos citros: histopatologia de Colletotrichum acutatum / Postbloom fruit drop: histopatology of Colletotrichum acutatum

João Paulo Rodrigues Marques

09 August 2012

A podridão floral dos citros (PFC) é uma doença causada pelo fungo Colletotrichum acutatum responsável por causar grandes danos à produção de citros no Brasil. A doença surge apenas em botões florais com 8mm de comprimento ou maiores, levando a formação de lesões alaranjadas nas pétalas, lesões necróticas no estigma, promove a queda prematura dos frutos e a retenção do cálice e pedúnculo, sendo este último sintoma denominado estrelinha. Este trabalho tem por objetivo: observar o modo de penetração do fungo no hospedeiro Citrus sinensis Valência e os estágios posteriores da colonização, verificar se há fatores estruturais e químicos pré-formados que expliquem o porquê do fungo não conseguir infectar botões florais com menos de 8mm, caracterizar anatomicamente o sintoma estrelinha e estigmas lesionados, investigar ultraestruturalmente pétalas inoculadas, analisar se há o estabelecimento de uma infecção quiescente nos tecidos foliares, analisar grãos de pólen após a inoculação in vivo e in vitro com o fungo. Botões florais sadios, pétalas e estigmas com e sem lesões, foram submetidos às técnicas convencionais de microscopia de luz e eletrônica. Folhas e grãos de pólen foram inoculados e analisados. Foi desenvolvida uma nova técnica de coloração para tecidos vegetais infectados por fungos. A resistência dos botões florais menores que 8mm pode estar associada às barreiras químicas e estruturais pré-formadas. O ápice, nesses botões, apresenta papilas entremeadas, cristais de oxalato de cálcio no mesofilo e câmara subestomática e cavidades de óleo localizadas muito próximas umas das outras. Botões com 8mm e 12mm possuem, no ápice, papilas com arranjo frouxo, ausência de cristais e maior distanciamento entre as cavidades de óleo. No ápice da pétala, verificou-se que as células papilosas são osmóforos. No sintoma estrelinha, nota-se sob a região de abscisão do ovário a instalação de um meristema de cicatrização. A lignificação das paredes das células da medula do receptáculo e do pedúnculo floral está associada à retenção destas estruturas na planta. Nas pétalas infectadas, o C. acutatum pode penetrar intra, intercelularmente e via estômato. O fungo pode crescer de modo subcuticular e intramural e coloniza todos os tecidos da pétala. A nova técnica de coloração se mostrou muito útil nas análises histopatológicas. O fungo associa-se aos tecidos vasculares. Acérvulos ocorrem em ambas as faces das pétalas. A cutícula nos estágios mais avançados da lesão apresenta-se alterada, ou seja, ocorre a perda da ornamentação estriada e maior deposição de material lipofílico. A síntese de materiais lipofílicos envolve o retículo endoplasmático liso e rugoso e plastídios. Vesículas provenientes de dictiossomos e de corpos multivesiculares são observadas ao longo da parede celular e estão associadas ao depósito de material lipofílico na cutícula. No estigma lesionado há a formação de uma camada de proteção. O fungo apresenta quimiotropismo e cresce em direção aos grãos de pólen infectando-os 24 horas após a inoculação. Sugere-se que C. acutatum pode utilizar grãos de pólen para a sua dispersão. Após 48 horas da inoculação as folhas apresentam conídios germinados com apressórios. / The postbloom fruit drop (PFD) is a disease caused by Colletotrichum acutatum responsible for causing great damage to citrus crops in Brazil. The disease appears only in flower buds 8 mm in length or greater, leading to orange lesions in petals, necrotic lesions on the stigma, promoting the young fruit drop and the retention of the calyx and peduncle, which is called buttons. In this context, this study aimed to: observe the fungus penetration mode into the host Citrus sinensis \'Valência\' and the later stages of colonization; study the presence of preformed structural and chemical factors to explain why the fungus cannot infect floral buds with less than 8 mm in length; characterize anatomically the symptom \"buttons\" and injured stigmas; investigate the ultrastructural changes in tissues of inoculated petals; analyze whether there is the establishment of a quiescent infection in leaf tissues, analyze pollen grains after inoculation in vivo and in vitro with the fungus. Healthy buds, petals and stigmas with and without lesions, were processed and analyzed using conventional light and electron microscopy techniques. Leaves and pollen grains were also inoculated and analyzed with light microscopy. It was developed a new staining method for fungal-infected plant tissues. The resistance of flower buds smaller than 8mm may be associated with preformed structural and chemical barriers. These buttons display the apex with interspersed papillae, with crystals in mesophyll and substomatic chamber and oil cavities, which are located very close to each other on the abaxial surface. In 8mm and 12mm flower buds, the papilas in the apex become weakly interspaced, the crystals are not observed and there is the increase of the distance between the oil cavities. The papillose cells are osmophores. In the symptom \"button\", it is noted in the abscission of the ovary, an installation of wound meristem. There is also the lignification in the pith of receptacle and pedicel that can be associated with the retention of these structures in the plant. In infected petals, it was found that C. acutatum can penetrate intra and intercelullar or via stomata. The fungus may grow subcuticular and intramural and colonize all tissues of petal. The new staining technique developed has proved very useful for histopathological analysis. The fungus is closely associated with vascular tissues. The acervulli occur on both surfaces of petals. The cuticle in the later stages of the lesion is altered, i.e., there is loss of striated ornamentation and increased deposition of lipophilic material. The synthesis of lipophilic materials involves rough and smooth endoplasmic reticulum and plastids. Vesicles from dictyosomes and multivesicular bodies were observed throughout the cell wall and are associated with the deposit of lipophilic material in the cuticle. There is the formation of protective layer over the stigma damaged area. The fungus shows chemotropism and grows toward the pollen infecting it 24 hours after inoculation. It is suggested that C. acutatum can use pollen grains for dispersal. After 48 hours of inoculation, the leaves have germinated conidia with appressoria.

Anatomia vegetal

Botões florais

Doença de planta

Fungos fitopatogênicos

Laranja

Ultra-estrutura

flower buds

orange

phytopathogenic fungi

plant anatomy

Plant Disease

ultrastructure

Infecção e colonização de Colletotrichum gloeosporioides em goiaba e infecção de Colletotrichum acutatum em folhas de citros / Infection and colonization of Colletotrichum gloeosporioides in guava fruits and infection of Colletotrichum acutatum on citrus leaves

Sylvia Raquel Gomes Moraes

09 March 2009

O objetivo do trabalho foi determinar o efeito da temperatura e período de molhamento no processo de infecção de Colletotrichum gloeosporioides e C. acutatum em goiaba e folhas de citros, respectivamente, além de evidenciar o processo de colonização de C. gloeosporioides. Para determinar o processo de infecção em diferentes combinações de temperatura e períodos de molhamento, suspensões de conídios de C. gloeosporioides foram depositadas em placas de poliestireno e incubadas sob temperaturas de 10, 15, 20, 25, 30, 35 e 40 °C, com período de molhamento de 6, 12, 24, 36 e 48 horas. Para C. acutatum, as placas foram incubadas sob temperaturas de 5, 10, 15, 20, 25, 30 e 35 °C, com períodos de molhamento de 6, 12, 24, 36 e 48 horas. In vivo, suspensões de conídios de C. gloeosporioides foram depositadas na superfície de goiabas que foram incubadas sob temperaturas de 10, 15, 20, 25 e 30 °C e períodos de molhamento de 6, 12 e 24 horas. Folhas de citros foram inoculadas com suspensões de dois isolados de C. acutatum e incubadas sob temperatura de 15, 20, 25 e 30 °C e períodos de molhamento de 12, 24 e 48 horas. Para os estudos do processo de colonização, goiabas com 110 dias após a queda das pétalas foram inoculadas e incubadas a 25 °C e períodos de molhamento de 48, 72, 96 e 120 horas. Posteriormente, frutos com 10, 35, 60 e 85 dias também foram inoculados e incubados a 25 °C por 48 horas. Para visualizar estruturas do tecido vegetal e fenóis, secções de frutos com as diferentes idades foram coradas com azul de toluidina e ACN. As temperaturas ótimas in vitro para germinação de C. gloeosporioides, apressórios formados e melanizados foram, respectivamente, 22,7, 20,6 e 23 °C. Para o isolado KLA-MGG-1 de C. acutatum foi 23,9 °C para germinação e 23,5 °C para formação de apressórios, enquanto para o isolado FSH-CLB-2 foi 21,6 °C para ambas as variáveis. Em goiaba, as temperaturas ótimas para germinação de C. gloeosporioides e formação de apressórios foram 22,4 e 23,3 °C, respectivamente. Em folhas de laranjeira, as temperaturas ótimas para os isolados KLA-MGG-1 e FSH-CLB-2 foram, respectivamente, 24,1 e 24 °C para germinação e 21,2 e 23 °C para formação de apressórios. Para folhas de limoeiro, foram 18,1 °C para germinação e 16,2 °C para formação de apressórios do isolado KLA-MGG-1. Para o isolado FSH-CLB-2, as temperaturas ótimas foram 24,4 e 23,7 °C, respectivamente. A estratégia de colonização de C. gloeosporioides foi intracelular hemibiotrófica. Em amostras com 48 h após a inoculação, foi verificado o peg de penetração. Com 72 horas, observou-se a formação da vesícula de infecção. As hifas foram observadas em amostras com 96 h após inoculação. As mesmas estruturas fúngicas alcançaram as células parenquimáticas com 120 horas após inoculação. O peg de penetração foi observado apenas em frutos com 85 e 110 dias. Estruturas do tecido vegetal e fenóis foram alterados com a idade dos frutos. / The objective of this study was to determine the effect of temperature and the wetness periods in the infection process of Colletotrichum gloeosporioides and C. acutatum in guava and citrus leaves, respectively, besides evidencing the colonization process of C. gloeosporioides. To determine the infection process at different temperature and wetness periods combinations, conidial suspensions of C. gloeosporioides were deposited on polystyrene dishes and incubated at 10, 15, 20, 25, 30, 35 and 40 °C with wetness periods of 6, 12, 24, 36 and 48 h. For C. acutatum, the dishes were incubated at 5, 10, 15, 20, 25, 30 and 35 °C, with wetness periods of 6, 12, 24, 36 and 48 h. In vivo conidial suspensions of C. gloeosporioides were placed on the surface of guavas which were incubated at 10, 15, 20, 25 and 30 °C with wetness periods of 6, 12 and 24 h. The citrus leaves were inoculated with suspensions of two isolates of C. acutatum and incubated at 15, 20, 25 and 30 °C with wetness durations of 12, 24 and 48 h. For the analysis on the colonization process, physiological mature guava fruits were inoculated and incubated at 25 °C with wetness periods of 48, 72, 96 and 120 h. Afterward, fruits with 10, 35, 60 and 85 days were also inoculated and incubated at 25 °C for 48 hours. To visualize the structures of vegetal tissues and phenols, sections of fruits at different ages were colored in toluidine blue and ACN. Optical temperature for conidial germination, appressoria formation and appressoria melanization for C. gloeosporioides were, respectively, 22.7, 20.6 and 23.0 °C. For C. acutatum isolate KLA-MGG-1, they were 23.9 °C for germination and 23.5 °C for appressoria formation and for isolate FSH-CLB-2 it was 21.6 °C for both variable. In guava, the temperatures for germination of C. gloeosporioides and appressoria formation were 22.4 and 23.3 °C, respectively. In leaves of orange trees, the optimal temperatures for the isolates KLA-MGG-1 and FSH-CLB-2 were, respectively, 24.1 and 24 °C for germination and 21.2 and 23 °C for appressoria formation. In leaves of lemon trees, they were 18.1 °C for germination and 16.2 °C for appressorial production of isolate KLA-MGG-1. For isolate FSH-CLB-2, the optimal temperatures were 24.4 and 23.7 °C, respectively. The colonization strategy of C. gloeosporioides was intracellular hemibiotrophic. The penetration peg was verified in samples 48 h after inoculation. After 72 h, it was observed formation of infection vesicle. The hyphae were observed in samples 96 h after inoculation. The same fungal structures reached the parenchymal cells 120 hours after inoculation. The penetration peg was observed only in fruits with 85 and 110 days. Structures of guava tissues and phenols were changed with the fruit aging.

Antracnose

Fungos fitopatogênicos

Goiaba

Laranja

Limão

Microscopia eletrônica

Podridão (Doença de planta).

Anthracnose

Electron microscopy

Key lime anthracnose

Penetration

Postbloom fruit drop

Pre-penetration

Psidium guajava

Quiescence.

Ultrastructure

Aspects of the Innate Immune System in the Caribbean Octocoral Swiftia exserta

Menzel, Lorenzo P.

12 November 2013

The immune systems of cnidaria are important to study for two reasons: to gain a better understanding of the evolution of immune responses, and to provide a basis to partially redress the precipitous world-wide die-offs of reef corals, some of which have been attributed to diseases and stress. Many immune responses share ancient evolutionary origins and are common across many taxa. Using Swiftia exserta, an azooxanthellate ahermatypic local octocoral, as a proxy model organism to study aspects of innate immunity in corals and cnidaria allows us to address both of the reasons listed above while not using endangered species. Utilizing a coral that does not contain symbiotic dinoflagellates (zooxanthellae) simplifies the system by restricting the source of proteins to a single genome. The lack of zooxanthellae in Swiftia exserta also allows the animal’s simple adaptation to lab settings. This study of the innate immune system of an octocoral demonstrates: 1) a novel understanding of the microanatomy of octocoral tissues; 2) that Swiftia exserta has at least two cell types that function as constitutive immunocytes; and 3) the presence of two potent antibacterial peptides, one with a mass between 4694 and 4696 Daltons. My report on the microanatomy of the coenenchyme, the tissue between polyps, advances the understanding of octocoral anatomy by systematically comparing histology sections with electron micrographs. Applying various techniques of enzyme histochemistry, coupled with cryo-preservation, to the coenenchyme I have identified at least two populations of constitutive immunocytes in Swiftia exserta. Two antibacterial proteins are identified by protein purification and antimicrobial testing techniques. The more active protein is partially characterized with modern hyphenated mass-spectrometry techniques, and can be the focus of future study.

cnidaria

innate immunity

ultrastructure

enzyme histochemistry

antimicrobial peptides

Biochemistry

Cell Anatomy

Cell Biology

Enzymes and Coenzymes

Hemic and Immune Systems

Immunity

Marine Biology

Tissues

Resolving the Ultrastructural Organization of Synaptic Vesicle Pools at Hippocampal Mossy Fiber and Schaffer Collateral Synapses

Maus, Lydia Susann

14 September 2020

No description available.

570

Mossy Fiber

Schaffer Collateral

Synapse

Synaptic Vesicle

Active Zone

Docking

Munc13

Ultrastructure

High-pressure Freezing

Electron Microscopy

Electron Tomography

Biologie (PPN619462639)

Ultrastruktura chloroplastů buku pod vlivem zvýšené koncentrace CO2 a různé ozářenosti / Ultrastrucutre of beech chloroplasts under the elevated CO2 concentration and different irradiation

Vrbová, Anna

January 2014

Forest stands may act as important carbon storage places - sinks, due to carbon allocation into both the plant biomass in the process of photosynthesis and the soil. Enhancement of CO2 concentration affects a whole range of plant physiological processes and, thus, it is necessary to study its effect on photosynthetic apparatus - leaf anatomical structure and chloroplast ultrastructure. The first aim of the Thesis was to evaluate changes in chloroplast ultrastructure of common beech (Fagus sylvatica L.) under the effects of both elevated CO2 concentration and different irradiance. The second aim was to evaluate if the anatomical parameters obtained from the middle part of the leaf are representative for the whole leaf blade. The trees were grown in glass domes at the Bílý Kříž experimental site in the Beskids Mountains (Czech Republic), owned by the CzechGlobe Institute. Leaves were sampled in 2010 from juvenile trees, which were planted in 2005 being 5-year old and cultivated since then in ambient (AC; 390 micromol/mol) and elevated (EC; 700 micromol/mol) CO2 concentrations. The EC effect was recorded to be an increased proportion of starch grains in the chloroplast median section and decreased proportion of of intergranal thylakoids (IGT) while the ratio of granal to intergranal thylakoids...

Examination of Mitochondrial Bioenergetics in Skeletal Muscle Biopsies from Adults with Type 1 Diabetes

Monaco, Cynthia

January 2021

The overall objective of this thesis was to examine mitochondrial bioenergetics in muscle biopsies from humans with type 1 diabetes (T1D) to gain a deeper understanding of the cellular mechanism(s) underlying changes to skeletal muscle health reported in T1D, a phenotype we have referred to as ‘diabetic myopathy’. It was hypothesized that humans with T1D, compared to their matched counterparts without diabetes (control), would demonstrate significant deficiencies in muscle mitochondrial function and ultrastructure/content as determined by the gold-standard in vitro methodology: high-resolution respirometry and transmission electron microscopy, respectively. It was further hypothesized that sex differences would not exist in mitochondrial function with T1D, and mitochondrial deficiencies would be more dramatic at an earlier age with T1D. Adults with uncomplicated T1D and strictly matched controls (age, sex, BMI, self-reported physical activity levels) were recruited from surrounding university-dwelling communities. Site-specific deficiencies in mitochondrial respiration, H2O2 emission, and calcium retention capacity were found in young, physically active adults with T1D despite normal mitochondrial content. Further experiments revealed that muscle mitochondrial respiration in women and men differentially adapt to the T1D environment where men with T1D have lower complex II but higher complex I respiration compared to women with T1D, while women (irrespective of T1D) have lower ADP sensitivity. Women with T1D also demonstrated lower H2O2 emission compared to men with T1D. In contrast, despite a lower mitochondrial content in middle- to older-aged adults with T1D, mitochondrial respiration (normalized to content) was either normal or increased in adults with T1D compared to control, with observable differences between sexes. Overall, this research has demonstrated that despite being recreationally to physically active, adults with uncomplicated T1D with moderately well-managed glycemia demonstrate alterations in skeletal muscle mitochondrial function and ultrastructure, including differences between sexes. / Dissertation / Doctor of Science (PhD) / Type 1 diabetes (T1D) is a complex disease that still has no known cure. Current treatment focuses on managing blood sugar levels with exogenous insulin injections and frequent blood sugar checks. However, over time, people with T1D still develop serious complications that inevitably impact their quality of life and lifespan. A potential adjuvant therapy to prevent complications in T1D is improving the health of skeletal muscle through exercise given its role in stabilizing blood sugar/lipid levels and whole-body insulin sensitivity. However, this area continues to be severely understudied in the T1D population. Thus, this thesis examined skeletal muscle metabolic ‘health’ from adults with T1D who do not have major diabetes complications and manage their blood glucose moderately-well. Through a series of novel experiments, we found that young and middle- to older-aged adults with T1D have alterations in the metabolic engines of their muscles, and depending on biological sex, the alterations manifest as either heightened or degraded cellular function. These findings are the first to provide a comprehensive cellular investigation of the impact of T1D on the metabolic health of skeletal muscle in people with T1D and provide the foundation for future research examining skeletal muscle as an essential and early adjuvant therapy in this population.

Mitochondria

Type 1 Diabetes

Mitochondrial Bioenergetics

T1D

Diabetic myopathy

Muscle biopsy

High-resolution respirometry

Mitochondrial respiration

ROS

Sex differences

Sexual dimorphism

Mitochondrial density

OXPHOS

Mitochondrial ultrastructure

The effect of acid etching on remineralization of incipient caries lesions : a micro-ct study

Yeslam, Hanin E.

January 2009

Indiana University-Purdue University Indianapolis (IUPUI) / Etching of enamel caries lesions has been demonstrated to enhance remineralization. However, this effect reaches a plateau after a period of time. This study aimed at investigating the effectiveness of additional acid etching on remineralization. Forty 1 mm × 2 mm human enamel blocks with chemically induced artificial incipient lesions were used. Ten specimens were randomly selected at the end of demineralization for transverse microradiography (TMR) analysis. The remaining specimens were then divided into three groups (n = 10). Group A was remineralized by a pH cycling system with 1100 ppm sodium fluoride for 20 days. In group B, the specimens were etched with 35-percent phosphoric acid for 30 s and then remineralized. Group C was remineralized by same procedure as group B plus and given an additional acid etch after 10 days of remineralization. Mineral density was measured by x-ray microtomography (µ-CT). The volumetric mineral content [VM (µm3×105)] was determined between 91 and 0-wt%. The µ-CT % mineral recovery (%) was calculated using the formula 100×(remineralize VM - demineralization VM) / (sound VM - demineralization VM). One-hundred-μm sections of demineralized and remineralized specimens were used to assess the mineral loss (IML: vol%×µm) and lesion depth (µm) using TMR. The three groups showed no significant difference in mineral change or mineral content for µ-CT or TMR lesion depth. The TMR IML showed a significant difference between the demineralized specimens and the three remineralized groups. The correlation between TMR IML and TMR lesion depth was 0.66 (p < 0.0001). The µ-CT percent mineral recovery from demineralization was correlated with neither TMR IML nor TMR lesion depth. When evaluated with µ-CT, the twice-acid-etched group presented lower mineral gain values than the group etched only once with acid. Also, the twice-etched group presented lower mineral gain and greater TMR IML compared with the non-acid etch group. TMR images revealed reduction of surface layer in the acid-etched groups, especially in the twice-etched group, in which significant reduction or loss of surface layer occurred. Based on these results, we conclude that additional acid etching with 35-percent phosphoric acid does not enhance remineralization compared with a single application of acid etching. We believe that the viable existence of the surface layer is essential for remineralization of the lesion. Further investigations into the accuracy of µ-CT to detect minute mineral changes in incipient caries lesions are probably needed.

Dental caries

Incipient caries lesions

Microradiography

Microcomputed tomography

Micro CT

TMR

Fluoride

Acid etching

Remineralization

Tooth Remineraliztion -- methods

Acid Etching, Dental.

Dental Caries -- prevention and control

Dental Enamel -- ultrastructure

Quantitative comparison of nanoleakage among five resin luting agents after aging

Chotiwannaporn, Pavinee, 1980-

January 2012

Indiana University-Purdue University Indianapolis (IUPUI) / Potential problems of one-step adhesives have been identified, including water uptake and subsequent plasticization, water-and enzyme-induced nanoleakage, and the presence of voids due to phase-separation or osmosis. Clinically, adhesive failures due to marginal degradation present as retention loss, marginal discoloration, and secondary caries. However, the mechanisms of adhesive interface degradation of self-etching and self-bonding resin luting agents are not fully understood. The objective of the study was to investigate adhesive layer degradation by using a nanoleakage technique with five different resin luting agents. Materials and Methods: Five different resin luting systems, Variolink II, Panavia F2.0, RelyX Unicem, RelyX Unicem2, and Maxcem Elite were evaluated in this study. The 25 dentin specimens were randomly divided into five resin luting agent groups. Flat dentin surfaces were created mid-coronally and were luted with luting agents. Then, each tooth was sectioned occluso-gingivally. The first half of each tooth was used as a control group and the other half was used as the experimental group. The control group was immersed in artificial saliva at 37°C and SEM examination with chemical analysis was performed within 48 hours. In the tested group, all specimens were immersed in artificial saliva at 37°C for 10 days and thermocycled. For the SEM examination, the specimens were immersed in a 50-percent ammoniacal silver nitrate solution for 24 hours.22 SEM was used for observation of silver penetration of the specimens. Three scan lines were selected. For elemental analysis, natural apatite, olivine minerals, and pure silver metal were chosen as standards for Ca, Si and Ag. Data were analyzed using ANOVA with a 5-percent significance level. Results: At the bottom of the hybrid layer, there was no significant difference in silver uptake within the adhesive interface between luting agents (p > 0.05) and there was no significant change in silver uptake within the adhesive interface after thermocycling (aging) (p > 0.05). Conclusion: All resin luting agents exhibited nanoleakage after both 24-hour storage and 10-day storage with thermocycling.

resin luting agents

nanoleakage

aging

Dental Leakage -- etiology

Resin Cements -- chemistry

Dental Bonding

Dentin-Bonding Agents -- chemistry

Adhesives -- chemistry

Dentin -- ultrastructure

Time Factors

Effect of fluoride and abrasives on artificial enamel caries lesions

Nassar, Hani M., 1979-

January 2012

Indiana University-Purdue University Indianapolis (IUPUI) / Hypothesis: The interaction between the abrasive level and fluoride concentration of dentifrice slurries modulates the surface loss (SL) and remineralization of incipient enamel caries (IEC). Methods: Three types of IEC were created and six experimental slurries with different combinations of fluoride content and abrasive level were tested. In experiment 1, the three IEC were subjected to brushing (with experimental slurries) and remineralization cycles for 5 days. Fluoride concentrations (0 and 275 ppm as NaF) and abrasive levels (Low and High) were tested. SL was determined by optical profilometry at baseline and after 1, 3, and 5 days. In experiment 2, changes in IEC mineral content (Δ(ΔZ)C) and depth (ΔLC) were investigated at baseline and after the 5-day cycling with transverse microradiography. In experiments 3 and 4, SL of MeC and CMC lesions were further studied, respectively; testing not only fluoride concentration (275 and 1250 ppm as NaF) and abrasivity (low and high) of the slurry, but also the brushing frequency (1x, 2x, and 3x/day). Brushing-remineralization cycles were performed for 7 days. Statistical analyses were performed at 5% significance level. Results: Experiment 1: overall, brushing with the high-abrasive slurry caused more SL than with the low-abrasive. For CMC and MeC lesions, 0 ppm F had more SL than 275 ppm F only after day 3. Fluoride had no effect on the SL of HEC lesions. Experiment 2: fluoride and abrasives did not have a significant effect on IEC. HEC had significantly lower Δ(ΔZ)C than CMC and MeC, with CMC and MeC not differing from each other. Lesion type had no effect on ΔLC. Experiment 3: brushing CMC lesions 3x/day with 1250 ppm F increased SL compared to 1x/day, after 5 and 7 days. Study 4: brushing MeC lesions with high abrasive slurry containing 1250 ppm F increased SL after 5 and 7 days. Conclusions: The IEC tested showed different SL and remineralization behaviors. The fluoride content and abrasive level of the toothpaste showed to be relevant modulating the SL of enamel caries lesions as well as their remineralization behavior.

fluoride

enamel caries

abrasives

dentifrice

remineralization

abrasion

Fluorides--therapeutic use

Dentifrices--adverse effects

Tooth Abrasion

Dental Caries--pathology

Dental Enamel--ultrastructure

Toothbrushing--adverse effects

Tooth Remineralization

The Effect of Febrile Temperature on Plasmodium falciparum

Porter, Heidi Sue

07 December 2007

Previously it has been shown that cultures of Plasmodium falciparum died following exposure to a febrile temperature of 40°C, as demonstrated by a decrease in parasitemia of the following generation. In the current study, the effect of 40°C treatment on culture media, erythrocytes, and parasite glucose consumption, were ruled out as possible influences on parasite death, demonstrating that 40°C impacted the parasites directly. Metabolic profiling of DNA synthesis, protein synthesis, and glucose utilization during exposure to 40°C clearly indicated that febrile temperatures had direct effect on major metabolic pathways and parasite development, beginning 20-24 hr after erythrocyte invasion. The ring stages were relatively refractory to heat and recovered completely if returned to 37°C. The mechanism of parasite death was investigated for evidence of an apoptosis-like pathway in cells treated with 40°C, chloroquine, and staurosporine. Lack of typical physiological hallmarks, namely, caspase activation, characteristic mitochondrial membrane potential changes, and DNA degradation as indicated by DNA laddering, eliminated ‘classical’, apoptosis as a mechanism of parasite death. Parasites dying under the influence of 40°C, staurosporine, and chloroquine initially appeared pyknotic in light and electron microscopy, as in apoptosis, but eventual swelling and lysis of the food vacuole membrane led to secondary necrosis. Initially, chloroquine did induce DNA laddering, but it was later attributed to occult white blood cell contamination. While not apoptosis, the results do not rule out other forms of temperature-induced programmed cell death.

Plasmodium falciparum

malaria

apoptosis

necrosis

programmed cell death

heat

febrile temperature

chloroquine

staurosporine

mitochondrial membrane potential

DNA laddering

caspase

ultrastructure

Microbiology