6-Acylamino-penam derivatives: synthesis and inhibition of cathepsins B,L, K,and S

The synthesis of a new series of 6-acylamino penam derivatives and their inhibition of cysteine proteases cathepsins B, L, K, and S is described. The 6-acylamino-penam sulfone compounds showed excellent cathepsin L, K, and S inhibition activity with IC(50) values in the nanomolar and subnanomolar range.     

Labeled Trichoderma reesei Cellulase as a Marker for Acanthamoeba Cyst Wall Cellulose in Infected Tissues

Some protozoans are able to encyst as a protective response to a harmful environment. The cyst wall usually contains chitin as its main structural constituent. Acanthamoeba is an exception since its cyst wall contains cellulose. Specific cytochemical differentiation between cellulose and chitin by microscopy has not been possible due to the similarity of the constituent β-1,4-linked hexose backbones of these molecules. Thus, various fluorescent brightening agents and lectins bind to both cellulose and chitin. The identification of Acanthamoeba spp., which is based primarily on morphological and biochemical features, is labor-intensive and requires cloning and axenization. We describe a novel immunocytochemical method for identification of Acanthamoeba spp. based on selective binding of Trichoderma reesei cellulase to protozoan cyst wall cellulose. A recombinant cellulose-binding protein consisting of two cellulose-binding domains (CBDs) from T. reesei cellulases was coupled to the fluorescent dyes Alexa Fluor 350 and Alexa Fluor 568 or was labeled with biotin using EZ-Link sulfo-NHS-biotin. No staining reaction was observed with chitin-containing preparations of fungi. Thus, the recombinant CBDs can be used as a marker to distinguish between cellulose and chitin. This allows rapid identification of Acanthamoeba cyst wall cellulose in paraffin or frozen sections of infected tissues.Laboratory diagnosis of infections with Acanthamoeba spp. is based on identification of the parasite in infected tissue. Although various techniques, including immunocytological and molecular methods, have been described, recovery of viable parasites by cultivation on agar is still the basic procedure used (16). This method is usually associated with histopathological examination of the specimen to prove tissue invasion by the parasite.Recognition of parasites in tissue sections is often difficult and depends on the expertise of the pathologist. In addition to traditional histological staining methods, immunohistology using parasite-specific antibodies, lectin conjugates, and calcofluor white have been used for visualization of parasites in tissue sections (3).Some protozoan parasites have the ability to protect themselves by forming a cyst wall, which is resistant to environmental stresses such as desiccation, lack of nutrients, and variations in temperature and pH. In most pathogenic protozoans studied, chitin is the carbohydrate polymer providing the required structural toughness to the cyst wall. Acanthamoeba spp. are exceptions, as their cysts are made up of cellulose. Recently, cellulose has also been identified as a cyst wall component in a closely related amoeba, Balamuthia mandrillaris (15). Cellulose consists of β-d-glucosyl units linked by β-1,4-glucosidic bonds. Chitin is very similar but contains N-acetylglucosamine as the monomer. Both polymers form very similar crystalline macroscopic structures. Specific cytochemical differentiation between cellulose and chitin by microscopy has not been possible due to the similarity of the constituent β-1,4-linked hexose backbones. This is especially true for various fluorescent brightening agents, such as calcofluor white, used as cytochemical markers in microscopic diagnosis of protozoan and fungal infections. A two-domain structural organization is often observed in cellulose-degrading enzymes. Most Trichoderma reesei cellulases consist of a catalytic domain and a cellulose-binding domain (CBD) joined by a linker. The catalytic domain contains the active site with the amino acid residues responsible for the hydrolytic mechanism. The role of the CBD is to bind to the solid cellulose. The ability of CBDs to attach to cellulose can be utilized in various applications. Individual types of CBDs can vary significantly in their properties, such as affinity, preference for crystalline or amorphous cellulose, and cross-reactivity with other similar carbohydrates (7, 8, 9, 10).We have previously described a novel immunocytochemical method for identification of Acanthamoeba spp. based on selective binding of T. reesei cellulase to protozoan cyst wall cellulose (12). In that study we used a recombinant dimeric CBD (D-CBD) fusion protein in an indirect immunofluorescence analysis to specifically stain the cellulose and visualize its localization in the cyst wall. In preliminary studies, this method was also shown to be useful detection of parasites in tissue sections (11).The aim of the present study was to simplify the detection method by preparing D-CBDs as fluorescent and biotinylated conjugates that could be used for direct and rapid detection of cellulose in Acanthamoeba by both fluorescence and ordinary light microscopy.     

Dopamine Neuron Stimulating Actions of a GDNF Propeptide

Background

Neurotrophic factors, such as glial cell line-derived neurotrophic factor (GDNF), have shown great promise for protection and restoration of damaged or dying dopamine neurons in animal models and in some Parkinson''s disease (PD) clinical trials. However, the delivery of neurotrophic factors to the brain is difficult due to their large size and poor bio-distribution. In addition, developing more efficacious trophic factors is hampered by the difficulty of synthesis and structural modification. Small molecules with neurotrophic actions that are easy to synthesize and modify to improve bioavailability are needed.

Methods and Findings

Here we present the neurobiological actions of dopamine neuron stimulating peptide-11 (DNSP-11), an 11-mer peptide from the proGDNF domain. In vitro, DNSP-11 supports the survival of fetal mesencephalic neurons, increasing both the number of surviving cells and neuritic outgrowth. In MN9D cells, DNSP-11 protects against dopaminergic neurotoxin 6-hydroxydopamine (6-OHDA)-induced cell death, significantly decreasing TUNEL-positive cells and levels of caspase-3 activity. In vivo, a single injection of DNSP-11 into the normal adult rat substantia nigra is taken up rapidly into neurons and increases resting levels of dopamine and its metabolites for up to 28 days. Of particular note, DNSP-11 significantly improves apomorphine-induced rotational behavior, and increases dopamine and dopamine metabolite tissue levels in the substantia nigra in a rat model of PD. Unlike GDNF, DNSP-11 was found to block staurosporine- and gramicidin-induced cytotoxicity in nutrient-deprived dopaminergic B65 cells, and its neuroprotective effects included preventing the release of cytochrome c from mitochondria.

Conclusions

Collectively, these data support that DNSP-11 exhibits potent neurotrophic actions analogous to GDNF, making it a viable candidate for a PD therapeutic. However, it likely signals through pathways that do not directly involve the GFRα1 receptor.     

Didymosphaeria igniaria: a new microorganism useful for the enantioselective reduction of aryl-aliphatic ketones

Didymosphaeria igniaria is a promising biocatalyst in asymmetric reductions of prochiral aromatic-aliphatic ketones such as acetonaphthones, acetophenones, and acetylpyridines. The organism converted the substrates mainly to (S)-alcohols. Excellent results in terms of conversion and enantioselectivity (100% yield, >99% ee) were obtained with acetonaphthones. In case of acetyl pyridines, the optical purity of the product depended on the position of the carbonyl group on the pyridine ring and followed the order 2-acetyl ? 4-acetyl > 3-acetyl-pyridine. Transformation of o-methoxy-acetophenone gave optically pure (S)-(-)-1-(2-methoxyphenyl)-ethanol in 95% yield. The transformation of para-methyl ketone gave (R)-alcohol (81% ee), whereas para-bromo ketone gave (S)-alcohol (98% ee). Monitoring of the biotransformation of these substrates over time led to the conclusion that for both substrates, non-selective carbonyl group reduction occurred in the first step, followed by selective oxidation of the (R)-isomer of p-bromo-phenylethanol and selective oxidation of the (S)-isomer of p-methyl-phenylethanol. D. igniaria exhibited poor enantioselectivity in the reduction of bicyclic aryl-aliphatic ketones such as 1- and 2-tetralones. Only (S)-5-methoxy-1-tetralol was obtained in optically pure (>99% ee) form.     

In vitro selection in resistance breeding of strawberry (Fragaria x ananassa duch.)

Genetic resistance to pathogenetic soil-borne fungus Verticillium dahliae Kleb. was examined in two strawberry somaclones. Strawberry somaclones were obtained in sterile culture from runner tips of cultivars 'Merton Dawn' and 'Selva'. In vitro selection was performed with the use of homogenate of liquid cultures of Verticillium dahliae. Microplants of both somaclones were inoculated at stage of 4. Leaves. Disease symptoms were observed at 15., 30., 45., 60. and 75. days post inoculation. Extent of leaf chlorosis was rated on a scale of 0-4. Under the controlled in vitro culture conditions a different response to infection by this pathogenic fungus was observed. After 75. days post inoculation the contribution of necrotic plants in somaclone of 'Merton Dawn' reached the value of 76%, whereas in somaclone of 'Selva' this value reached 86%. In control somaclones of 'Merton Dawn' and 'Selva' the contribution of necrotic plants after 75. days post mock-inoculation with sterile distilled water reached the considerably lower value of 13%. These results revealed that somaclone of 'Merton Dawn' was more genetically resistant to infection by V. dahliae than somaclone of 'Selva'. The observed response to in vitro infection caused by Verticillium dahliae in examined somaclones was similar in comparison with original cultivars. Furthermore, somaclonal variation induced in tissue cultured strawberry was sufficient to select variants that showed enhanced genetic resistance to Verticillium wilt caused by V. dahliae. In vitro selection can be efficiently used as an alternative program to conventional resistance breeding in strawberry.     

Outcome of a multimodal therapy of a recurrent adenocarcinoma arising from Caesarean section scar endometriosis—A case report

Background

Endometriosis occurring in surgical scars is a well-described entity. Malignant transformation of endometriosis is a rare event, with most cases belonging to adenocarcinoma. The initial surgical treatment is a method of choice. Due to lack of therapeutic recommendations, adjuvant therapy and recurrence management are a great challenge for oncologists.

Aim

The aim of this paper was to present a long-term survival as the outcome of multimodal therapy in the patient with recurrent adenocarcinoma arising from Caesarean section scar endometriosis.

Case

We present the case of a woman with recurrent adenocarcinoma arising from Caesarean section scar endometriosis. The disease was first diagnosed in September 1997 at age 43. The patient underwent abdominal hysterectomy with tumour excision. Due to a local recurrence after 4 years, tumour excision with abdominal wall repair using a plastic mesh, regional lymphadenectomy, bilateral salpingo-ovariectomy and adjuvant radiotherapy for the pelvic region with local boost were performed; in addition hormontherapy with medroxyprogesterone was started. Because of a recurrent pelvic tumour, chemotherapy, further local palliative radiotherapy and brachytherapy were administered. Subsequently distant metastases in bilateral axillary lymph nodes were diagnosed and palliative radiotherapy was performed. The patient died of morbus neoplasmaticus generalisatus in September 2008. The follow-up period had been 132 months.

Conclusion

This paper is, to our knowledge, the only report in literature that presents a long-term survival as the outcome of multimodal therapy in the patient with this rare diagnosis. Further reports of new cases can help establish optimal treatment guidelines.     

Resonance Raman enhancement of FeIV=O stretch in high-valent iron porphyrins: an insight from TD-DFT calculations

Density functional theory (DFT) has been applied to explain the origin of resonance Raman enhancement associated with the Fe(IV)=O stretch observed in iron(IV)oxo porphyrins. To accomplish this electronic excitations of the Im-(Por)Fe(IV)=O model were computed in the 1.5-4.0 eV spectral range using time-dependent DFT (TD-DFT). All electronic transitions having dominant pi-->pi* character were analyzed and assigned in terms of one-electron excitations. It was found that the most intense Soret band has a multi-component character, but the pi (a(2u))-->pi*(d(xz),d(yz)) and pi (a(1u))-->pi*(d(xz),d(yz)) electronic excitations are primarily responsible for observed resonance enhancement of the Fe(IV)=O stretch.     

H2O2 and Src-dependent transactivation of the EGF receptor mediates the stimulatory effect of leptin on renal ERK and Na+, K+-ATPase

We examined the mechanism through which leptin increases Na⁺, K⁺-ATPase activity in the rat kidney. Leptin was infused under anaesthesia into the abdominal aorta proximally to the renal arteries and then Na⁺, K⁺-ATPase activity was measured in the renal cortex and medulla. Leptin (1 μg/kg min) increased Na⁺, K⁺-ATPase activity after 3 h of infusion, which was accompanied by the increase in urinary H₂O₂ excretion and phosphorylation level of extracellular signal regulated kinase (ERK). The effect of leptin on ERK and Na⁺, K⁺-ATPase was abolished by catalase, specific inhibitors of epidermal growth factor (EGF) receptor, AG1478 and PD158780, as well as by ERK inhibitor, PD98059, and was mimicked by both exogenous H₂O₂ and EGF. The effect of leptin was also prevented by the inhibitor of Src tyrosine kinase, PP2. Leptin and H₂O₂ increased Src phosphorylation at Tyr⁴¹⁸. We conclude that leptin-induced stimulation of renal Na⁺, K⁺-ATPase involves H₂O₂ generation, Src kinase, transactivation of the EGF receptor, and stimulation of ERK.     

The impact of physical training on neutrophil extracellular traps in young male athletes – a pilot study

Neutrophils are an important component of the innate immune response against various pathogens. However, there is a lack of research concerning the effects of short intensive training on neutrophil functions, especially neutrophil extracellular traps (NET) formation. The study aim was to determine the effects of a 19-day training cycle on innate immunity among young male athletes. Six male ice hockey players (< 20 years old) from the Polish national team were monitored across a five-day training camp and after a return to normal club training. The first blood collection took place before training (T1), the second after the training camp (T2) and the third 14 days later (T3). The counts/concentrations of blood biochemical, immune and endocrine markers were compared across each training period. Creatine kinase activity tended to increase at T2 (546 ± 216 U·L^-1) when compared to T1 (191 ± 111 U·L^-1; p=0.063). Neutrophil extracellular traps formation and neutrophil counts also differed between training periods (p=0.042 and p=0.042, respectively). Neutrophil counts tended to decrease, in contrast to NET formation which tended to rise, at T2 in comparison to T1 (2.51 ± 0.45 vs 3.04 ± 0.47 109·L^-1; 24 ± 13 vs 8 ± 15%, respectively). No significant differences in other leucocyte counts were observed. A short period of intensive training was accompanied by some muscle damage and inflammation, as evidenced by CK and NET up-regulation, whilst neutrophil counts were diminished in the blood. Thus, neutrophils and NET could be involved in muscle damage and local inflammatory processes following intensive physical training in young male athletes.