Molecular Diagnosis and Prevalence of Trypanosoma vivax (Trypanosomatida: Trypanosomatidae) in Buffaloes and Ectoparasites in the Brazilian Amazon Region.

Trypanosoma vivax Ziemann is a parasite that affects both wild and domestic ungulates and is transmitted mechanically via tabanids and other blood-sucking insects in the Americas. A total of 621 blood samples from water buffaloes (Bubalus bubalis (Linnaeus) (Artiodactyla: Bovidae), and 184 ectoparasite samples (Amblyomma cajennense (Fabricius) sensu stricto and Rhipicephalus (Boophilus) microplus (Canestrini) (Acari: Ixodidae), and Haematopinus tuberculatus (Burmeister) (Phthiraptera: Haematopinidae)) were obtained from 60 farms in the State of Pará, Brazilian Amazon. Twelve buffalo blood samples (1.89%) and 11 ectoparasites (6%) were positive for T. vivax based on the cathepsin L-like gene. All sequences were 99% similar to T. vivax from northeastern Brazil (EU753788) in amplified PCR assays on each of the hosts tested.

Overexpression of Cathepsin L is associated with gefitinib resistance in non-small cell lung cancer.

Lung cancer, the most common malignancy, is still the leading cause of cancer-related death worldwide. Non-small-cell lung cancer (NSCLC) accounts for 80 % of all lung cancers. Recent studies showed Cathepsin L (CTSL) is overexpressed in various cancerous tissues; however, the association between CTSL expression and EGFR-TKI resistance remains unknown. In this study, we investigated the expression of CTSL in lung cancer specimens and matched normal tissues by quantitative real-time PCR and IHC. The functional role of CTSL in resistant PC-9/GR cell line was investigated by proliferation and apoptosis analysis compared with control PC-9 cells. Our results found that the level of CTSL expression was higher in NSCLC tissues compared with matched normal adjacent tissue samples, and CTSL was more highly expressed in PC-9/GR cells compared to PC-9 cells. Knocking-down of CTSL in PC-9/GR cells could decrease cell proliferation and potentiate apoptosis induced by gefitinib, suggesting CTSL may contribute to gefitinib resistance in NSCLC. CTSL might be explored as a candidate of therapeutic target for modulating EGFR-TKI sensitivity in NSCLC.

[Cathepsin L cysteine protease from Taenia solium: its biological role in the infection and potential use for the immunodiagnosis of neurocysticercosis]. / Cisteínoproteasas catepsinas L de Taenia solium: rol biológico en la infección y potencial uso para el inmunodiagnóstico de la neurocisticercosis.

Taenia solium is a plane helminth responsible for taeniasis and human cysticercosis, the latter being the result of the consumption of infective eggs. Cysticerci can develop in different human tissues, often in the central nervous system, causing neurocysticercosis (NCC). For the diagnosis of NCC, an adequate interpretation of clinical data, neuroimaging results and serological tests are required. However, serological tests could be improved by developing candidate antigens able to increase their sensibility and specificity. In the last years, a series of surface and secretory proteins of T. solium essential for the parasite-host interaction have been described. One of these families is cathepsin L cysteine proteases, which have a predominant role in the development and survival of the parasite. They take part in the tissue invasion, immune response evasion, excystation and encystment of cysticercus. They are considered potential antigens for the immunodiagnosis of neurocysticercosis.

Cisteínoproteasas Catepsinas L de Taenia solium: Rol biológico en la infección y potencial uso para el inmunodiagnóstico de la neurocisticercosis / Cathepsin L Cysteine Protease from Taenia solium: Its biological role in the infection and potential use for the immunodiagnosis of neurocysticercosis

Taenia solium es un helminto aplanado responsable de la teniosis y de la cisticercosis humana, siendo esta última producida por el consumo de huevos infectivos. Los cisticercos pueden desarrollarse en diferentes tejidos del hombre, frecuentemente en el sistema nervioso central causando la neurocisticercosis (NCC). Para el diagnóstico de la NCC se requiere de una adecuada interpretación de datos clínicos, resultados de neuroimagen y pruebas serológicas. Sin embargo, las pruebas serológicas podrían mejorarse con el desarrollo de antígenos candidatos capaces de incrementar su sensibilidad y especificidad. En los últimos años se han descrito una serie de proteínas de superficie y de secreción de T. solium esenciales para la interacción parásito-hospedero. Una de estas familias son las cisteínoproteasas catepsinas L, las cuales cumplen un rol preponderante para el desarrollo y supervivencia del parásito, participando en la invasión tisular, la evasión de la respuesta inmune, el desenquistamiento y enquistamiento del cisticerco. Son consideradas como antígenos potenciales para el inmunodiagnóstico de la neurocisticercosis.

Taenia solium is a plane helminth responsible for taeniasis and human cysticercosis, the latter being the result of the consumption of infective eggs. Cysticerci can develop in different human tissues, often in the central nervous system, causing neurocysticercosis (NCC). For the diagnosis of NCC, an adequate interpretation of clinical data, neuroimaging results and serological tests are required. However, serological tests could be improved by developing candidate antigens able to increase their sensibility and specificity. In the last years, a series of surface and secretory proteins of T. solium essential for the parasite-host interaction have been described. One of these families is cathepsin L cysteine proteases, which have a predominant role in the development and survival of the parasite. They take part in the tissue invasion, immune response evasion, excystation and encystment of cysticercus. They are considered potential antigens for the immunodiagnosis of neurocysticercosis.

The protease degrading sperm histones post-fertilization in sea urchin eggs is a nuclear cathepsin L that is further required for embryo development.

Proteolysis of sperm histones in the sea urchin male pronucleus is the consequence of the activation at fertilization of a maternal cysteine protease. We previously showed that this protein is required for male chromatin remodelling and for cell-cycle progression in the newly formed embryos. This enzyme is present in the nucleus of unfertilized eggs and is rapidly recruited to the male pronucleus after insemination. Interestingly, this cysteine-protease remains co-localized with chromatin during S phase of the first cell cycle, migrates to the mitotic spindle in M-phase and is re-located to the nuclei of daughter cells after cytokinesis. Here we identified the protease encoding cDNA and found a high sequence identity to cathepsin proteases of various organisms. A phylogenetical analysis clearly demonstrates that this sperm histone protease (SpHp) belongs to the cathepsin L sub-type. After an initial phase of ubiquitous expression throughout cleavage stages, SpHp gene transcripts become restricted to endomesodermic territories during the blastula stage. The transcripts are localized in the invaginating endoderm during gastrulation and a gut specific pattern continues through the prism and early pluteus stages. In addition, a concomitant expression of SpHp transcripts is detected in cells of the skeletogenic lineage and in accordance a pharmacological disruption of SpHp activity prevents growth of skeletal rods. These results further document the role of this nuclear cathepsin L during development.