The in vitro and in vivo testing of chemotherapeutic agents against pathogenic free living amebae : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Microbiology at Massey University, Palmerston North, New Zealand.

During the last ten years, there has been an increasing awareness of sporadic cases of Primary Amoebic Meningo-encephalitis (PAM) affecting primarily younger age groups and appearing in an acute fulminant form. The earliest positive case (Willaert, 1974) may have been in England in 1909 which shows that the disease has been with us for a long time. The pathogenic free-living amebae (PFLA), which comprises the genus Naegleria and the genus Acanthamoeba, are the causative organisms of PAM and AM*respectively. PAM is a rapidly fatal disease affecting the central nervous system (CNS),the treatment of which to date has been successful in only a small number of cases, and therefore the continual screening of suitable chemotherapeutic agents against amebae of the Naegleria spp. and Acanthamoeba spp., is of great importance. AM is also essentially confined to the CNS although it may take the form of chronic granulomata in the liver, spleen, uterus and kidneys (Martinez et al., 1977). Six chemotherapeutic agents: Amphotericin B, 5-Fluorocytosine, Kanamycin, Oxytetracycline, Tylosine and Levamisole were tested for activity against a non-pathogenic and a pathogenic species of Naegleria and a non-pathogenic and a pathogenic species of Acanthamoeba in axenic culture. For the Naegleria spp., Amphotericin B and Oxytetracycline were found to be active and the Acanthamoeba spp. were found to be only susceptible to Levamisole. The synergistic combinations of drugs against the amebae were also investigated in axenic culture. In preliminary trials Kanamycin together with Oxytetracycline showed promise against Naegleria fowleri (MsM) but this was later shown not to be the case. Amphotericin B in combination with 5-Fluorocytosine was also shown not to be synergistic, however Amphotericin B in combination with Oxytetracycline proved to be effective against N. fowleri. Amphotericin B was combined with 5-Fluorocytosine against A. culbertsoni (A-1) but was not found to be synergistically active. * Amebic meningitis caused by Acanthamoeba infections. Levamisole was also tested against N. gruberi (P1200f) and A. castellanii (0.1) at various stages in growth of the amebae (i.e. 24, 48 and 72 hour stock cultures) to determine the effect of using aged amebae. It was found that the age of the stock culture bore no relation to the activity of the drug. After axenic culture testing, the susceptibility of the pathogenic N. fowleri (MsM) and A. culbertsoni (A-1) to the agents which showed activity, was investigated in a vero cell culture system. For N. fowleri (MsM) the results of axenic culture testing were confirmed, with Amphotericin B and Oxytetracycline protecting the monolayer from the destructive effects of the amebae, both when used singly and at a greater efficiency when added together as a synergistic combination. Levamisole, although effective to some extent against Acanthamoeba spp. in axenic culture, failed to show any activity against the amebae in vero cell culture testing. In vivo animal protection studies were then performed using drugs that had been shown either in this or other studies to be effective against either Naegleria or Acanthamoeba spp. Chemotherapeutic agents tested on N. fowleri (MsM) included two imidazoles; Miconazole nitrate and Ketoconazole (previously known as R41,400), as well as Amphotericin B. The synergistic combination of Amphotericin B with either Tetracycline or Oxytetracycline was also investigated. For A. culbertsoni (A-1), 5-Fluorocytosine, and Polymyxin B were tried both singly and in combination. These drugs were injected by intraperitoneal (I.P.) and intraventricular (I.vent.) routes. The results were not promising, with none of the drugs offering significant protection even whilst using Amphotericin B which is considered the drug of choice. The question of adequate drug levels reaching the brain was tested out with two imidazoles, Ketoconazole and Miconazole. Serum samples were assayed against Candida pirapsilosis and C. pseudotropicalis respectively at various time intervals after innoculation with the drug, and a gradual increase and breakdown of the drug in the animal system could then be shown. These results showed that based on in vitro results, the levels of the imidazoles obtained in the serum after the first eight hours after injection, should have been sufficiently high to prevent amebic multiplication

Treatment of Girls and Boys with McCune-Albright Syndrome with Precocious Puberty - Update 2017

The most common endocrinopathy associated with McCune-Albright Syndrome (MAS) is peripheral precocious puberty (PP) which occurs far more often in girls than in boys. We will discuss the latest advancements in the treatment of precocious puberty in MAS that have been achieved during the past 10 years. However, due to the rarity of the condition and the heterogeneity of the disease, research in this field is limited particularly in regards to treatment in boys. In girls, a period of watchful waiting is recommended prior to initiating therapy due to extreme variability in the clinical course. This article will review in detail current pharmacologic treatment in girls, which typically consists of either inhibiting estrogen production or blocking estrogen action at the level of the end-organ. The two treatments with the most evidence at this time are Tamoxifen (which is an estrogen receptor modulator) and Letrozole (which is a 3rd generation aromatase inhibitor). This article will also review the current treatment strategies in boys which typically include using an androgen receptor blocker and an aromatase inhibitor. Due to the rarity of the condition, large multicenter collaborative studies are needed to further investigate efficacy and safety with the goal of establishing the gold standard for treatment of PP in children with MAS

Androgen receptors beyond prostate cancer: an old marker as a new target.

Androgen receptors (ARs) play a critical role in the development of prostate cancer. Targeting ARs results in important salutary effects in this malignancy. Despite mounting evidence that ARs also participate in the pathogenesis and/or progression of diverse tumors, exploring the impact of hormonal manipulation of these receptors has not been widely pursued beyond prostate cancer. This review describes patterns of AR expression in a spectrum of cancers, and the potential to exploit this knowledge in the clinical therapeutic setting

The influence of pH on the solubility of miconazole and its effect on survival of c. albicans

The in-vitro activity ofmiconazole against Candida albicans (NCPF 3262) was investigated using Time- survival curves. An HPLC assay was also developed to produce a pH-solubility profile which showed that miconazole solubility varied from (2.5 ±0.3) mg/L at pH 12 to (28.9 ± 0.6) mg/L at pH 5. Time survival curve determinations demonstrated a relationship between miconazole concentration and the area under the curve (AUC). In controlled conditions using buffered aqueous solutions of miconazole (8 mg/L), a change in pH from 8 to 5 resulted in an increase in the antifungal activity of miconazole. Experiments performed in buffered YNB using the same concentration of miconazole showed that a change in pH from 7 to 5 resulted in a decrease in miconazole antifungal activity. Such results indicate that apart from the well known inhibitory effects that the growth media have on azole activity, pH at which tests were performed may also influence growth of C. albicans in batch culture.peer-reviewe

Density alteration in non-physiological cells

In the present study an important phenomenon of cells was discovered: the change of intracellular density in cell's response to drug and environmental factors. For convenience, this phenomenon is named as "density alteration in non-physiological cells" ( DANCE). DANCE was determined by discontinuous sucrose gradient centrifugation (DSGC), in which cells were separated into several bands. The number and position of the bands in DSGC varied with the change of cell culture conditions, drugs, and physical process, indicating that cell's response to these factors was associated with alteration of intracellular density. Our results showed that the bands of cells were molecularly different from each other, such as the expression of some mRNAs. For most cells tested, intracellular density usually decreased when the cells were in bad conditions, in presence of drugs, or undergoing pathological changes. However, unlike other tissue cells, brain cells showed increased intracellular density in 24 hrs after the animal death. In addition, DANCE was found to be related to drug resistance, with higher drug-resistance in cells of lower intracellular density. Further study found that DANCE also occurred in microorganisms including bacteria and fungus, suggesting that DANCE might be a sensitive and general response of cells to drugs and environmental change. The mechanisms for DANCE are not clear. Based on our study the following causes were hypothesized: change of metabolism mode, change of cell membrane function, and pathological change. DANCE could be important in medical and biological sciences. Study of DANCE might be helpful to the understanding of drug resistance, development of new drugs, separation of new subtypes from a cell population, forensic analysis, and importantly, discovery of new physiological or pathological properties of cells

The Diabetic Dog as a Translational Model for Human Islet Transplantation.

The dog model has served as the primary method for early development of many diabetes therapies, including pancreatic islet transplantation techniques and immunosuppressive protocols. Recent trends towards the use of monoclonal antibody therapies for immunosuppression in human islet transplantation have led to the increasing use of primate models with induced diabetes. In addition to induced-disease models in large animals, scientists in many fields are considering the use of naturally-occurring disease models in client-owned pets. This article will review the applicability of naturally-occurring diabetes in dogs as a translational model for developing islet transplantation in the human diabetic patient

Complications of Cushing's syndrome: state of the art

Cushing's syndrome is a serious endocrine disease caused by chronic, autonomous, and excessive secretion of cortisol. The syndrome is associated with increased mortality and impaired quality of life because of the occurrence of comorbidities. These clinical complications include metabolic syndrome, consisting of systemic arterial hypertension, visceral obesity, impairment of glucose metabolism, and dyslipidaemia; musculoskeletal disorders, such as myopathy, osteoporosis, and skeletal fractures; neuropsychiatric disorders, such as impairment of cognitive function, depression, or mania; impairment of reproductive and sexual function; and dermatological manifestations, mainly represented by acne, hirsutism, and alopecia. Hypertension in patients with Cushing's syndrome has a multifactorial pathogenesis and contributes to the increased risk for myocardial infarction, cardiac failure, or stroke, which are the most common causes of death; risks of these outcomes are exacerbated by a prothrombotic diathesis and hypokalaemia. Neuropsychiatric disorders can be responsible for suicide. Immune disorders are common; immunosuppression during active disease causes susceptibility to infections, possibly complicated by sepsis, an important cause of death, whereas immune rebound after disease remission can exacerbate underlying autoimmune diseases. Prompt treatment of cortisol excess and specific treatments of comorbidities are crucial to prevent serious clinical complications and reduce the mortality associated with Cushing's syndrome

Calli Essential Oils Synergize with Lawsone against Multidrug Resistant Pathogens.

The fast development of multi-drug resistant (MDR) organisms increasingly threatens global health and well-being. Plant natural products have been known for centuries as alternative medicines that can possess pharmacological characteristics, including antimicrobial activities. The antimicrobial activities of essential oil (Calli oil) extracted from the Calligonum comosum plant by hydro-steam distillation was tested either alone or when combined with lawsone, a henna plant naphthoquinone, against MDR microbes. Lawsone showed significant antimicrobial activities against MDR pathogens in the range of 200-300 µg/mL. Furthermore, Calli oil showed significant antimicrobial activities against MDR bacteria in the range of 180-200 µg/mL, Candida at 220-240 µg/mL and spore-forming Rhizopus fungus at 250 µg/mL. Calli oil's inhibition effect on Rhizopus, the major cause of the lethal infection mucormycosis, stands for 72 h, followed by an extended irreversible white sporulation effect. The combination of Calli oil with lawsone enhanced the antimicrobial activities of each individual alone by at least three-fold, while incorporation of both natural products in a liposome reduced their toxicity by four- to eight-fold, while maintaining the augmented efficacy of the combination treatment. We map the antimicrobial activity of Calli oil to its major component, a benzaldehyde derivative. The findings from this study demonstrate that formulations containing essential oils have the potential in the future to overcome antimicrobial resistance