Your search keyword '"Huston CD"' showing total 6 results

1. The Clofazimine for Treatment of Cryptosporidiosis in HIV-Infected Adults (CRYPTOFAZ) and Lessons Learned for Anticryptosporidial Drug Development.

Author

Huston CD

Subjects

Adult, Clofazimine therapeutic use, Diarrhea, Drug Development, Humans, Cryptosporidiosis drug therapy, HIV Infections complications, HIV Infections drug therapy

Published

2021

2. A Veterinarian From Vermont Presenting With a Painful Right Index Finger Following a Needlestick Injury That Occurred While Caring for a Dog.

Author

Ghatage P, Pierce KK, Wojewoda C, Mendelson N, Wilcock J, Nesbit R, Huston CD, and Whitman TJ

Subjects

Animals, Dogs, Fingers, Humans, Vermont, Needlestick Injuries complications, Needlestick Injuries etiology, Veterinarians

Published

2020

3. Piperazine-Derivative MMV665917: An Effective Drug in the Diarrheic Piglet Model of Cryptosporidium hominis.

Author

Lee S, Ginese M, Girouard D, Beamer G, Huston CD, Osbourn D, Griggs DW, and Tzipori S

Subjects

Animals, Cryptosporidiosis parasitology, Diarrhea parasitology, Disease Models, Animal, Intestinal Mucosa parasitology, Monocytes parasitology, Oocysts drug effects, Swine, Cryptosporidiosis drug therapy, Cryptosporidium parvum drug effects, Diarrhea drug therapy, Piperazines pharmacology

Abstract

Background: Cryptosporidiosis, an enteric protozoon, causes substantial morbidity and mortality associated with diarrhea in children <2 years old in low- to middle-income countries. There is no vaccine and treatments are inadequate. A piperazine-based compound, MMV665917, has in vitro and in vivo efficacy against Cryptosporidium parvum. In this study, we evaluated the efficacy of MMV665917 in gnotobiotic piglets experimentally infected with Cryptosporidium hominis, the species responsible for >75% of diarrhea reported in these children., Methods: Gnotobiotic piglets were orally challenged with C hominis oocysts, and oral treatment with MMV665917 was commenced 3 days after challenge. Oocyst excretion and diarrhea severity were observed daily, and mucosal colonization and lesions were recorded after necropsy., Results: MMV665917 significantly reduced fecal oocyst excretion, parasite colonization and damage to the intestinal mucosa, and peak diarrheal symptoms, compared with infected untreated controls. A dose of 20 mg/kg twice daily for 7 days was more effective than 10 mg/kg. There were no signs of organ toxicity at either dose, but 20 mg/kg was associated with slightly elevated blood cholesterol and monocytes at euthanasia., Conclusions: These results demonstrate the effectiveness of this drug against C hominis. Piperazine-derivative MMV665917 may potentially be used to treat human cryptosporidiosis; however, further investigations are required., (© The Author(s) 2019. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published

2019

4. Drug repurposing: mining protozoan proteomes for targets of known bioactive compounds.

Author

Sateriale A, Bessoff K, Sarkar IN, and Huston CD

Subjects

Animals, Antiparasitic Agents therapeutic use, Cryptosporidium parvum drug effects, Databases, Protein, Humans, Parasitic Diseases drug therapy, Antiparasitic Agents pharmacology, Computer Simulation, Drug Repositioning methods, Parasites drug effects, Parasitic Sensitivity Tests, Proteome

Abstract

Objective: To identify potential opportunities for drug repurposing by developing an automated approach to pre-screen the predicted proteomes of any organism against databases of known drug targets using only freely available resources., Materials and Methods: We employed a combination of Ruby scripts that leverage data from the DrugBank and ChEMBL databases, MySQL, and BLAST to predict potential drugs and their targets from 13 published genomes. Results from a previous cell-based screen to identify inhibitors of Cryptosporidium parvum growth were used to validate our in-silico prediction method., Results: In-vitro validation of these results, using a cell-based C parvum growth assay, showed that the predicted inhibitors were significantly more likely than expected by chance to have confirmed activity, with 8.9-15.6% of predicted inhibitors confirmed depending on the drug target database used. This method was then used to predict inhibitors for the following 13 disease-causing protozoan parasites, including: C parvum, Entamoeba histolytica, Giardia intestinalis, Leishmania braziliensis, Leishmania donovani, Leishmania major, Naegleria gruberi (in proxy of Naegleria fowleri), Plasmodium falciparum, Plasmodium vivax, Toxoplasma gondii, Trichomonas vaginalis, Trypanosoma brucei and Trypanosoma cruzi., Conclusions: Although proteome-wide screens for drug targets have disadvantages, in-silico methods can be developed that are fast, broad, inexpensive, and effective. In-vitro validation of our results for C parvum indicate that the method presented here can be used to construct a library for more directed small molecule screening, or pipelined into structural modeling and docking programs to facilitate target-based drug development.

Published

2014

5. C1q- and collectin-dependent phagocytosis of apoptotic host cells by the intestinal protozoan Entamoeba histolytica.

Author

Teixeira JE, Heron BT, and Huston CD

Subjects

Animals, Cell Line, Humans, Mannose-Binding Lectin physiology, Apoptosis, Collectins physiology, Complement C1q physiology, Entamoeba histolytica immunology, Phagocytosis

Abstract

Background: Entamoeba histolytica, the cause of invasive amebiasis, phagocytoses apoptotic host cells during tissue invasion. In mammals, collectin family members (e.g., mannose-binding lectin [MBL]) and the structurally related protein C1q bind to apoptotic cells and stimulate macrophage phagocytosis via a conserved collagenous tail domain. The collectins also bind to bacteria, the usual source of nutrients for E. histolytica., Methods: To test the possibility that the collectins are ligands that stimulate E. histolytica phagocytosis, we used a flow cytometry-based assay for amebic phagocytosis, a method for making single-ligand particles to delineate a given ligand's ability to initiate phagocytosis, and purified human C1q, MBL, and collagenous collectin tails., Results: Apoptotic lymphocytes opsonized with serum or human C1q were phagocytosed more efficiently than control cells, an effect that was dependent on ligand density. C1q and the collectins alone were adequate to trigger amebic phagocytosis, because single-ligand particles coated with C1q, MBL, or purified collectin tails were phagocytosed more efficiently than control particles. Furthermore, C1q, MBL, and the tail domain of C1q were all chemoattractants for E. histolytica., Conclusions: C1q and MBL can serve as opsonins on apoptotic cells that stimulate E. histolytica phagocytosis, an effect mediated at least in part by the collagenous collectin tail domain.

Published

2008

6. Serum mannose-binding lectin deficiency is associated with cryptosporidiosis in young Haitian children.

Author

Kirkpatrick BD, Huston CD, Wagner D, Noel F, Rouzier P, Pape JW, Bois G, Larsson CJ, Alston WK, Tenney K, Powden C, O'Neill JP, and Sears CL

Subjects

Case-Control Studies, Cryptosporidiosis blood, Cryptosporidiosis immunology, Disease Susceptibility, Female, Haiti, Humans, Immunity, Innate physiology, Infant, Male, Mannose-Binding Lectin blood, Mannose-Binding Lectin immunology, Cryptosporidiosis metabolism, Mannose-Binding Lectin deficiency

Abstract

Background: Mannose-binding lectin (MBL) is a component of the innate immune response and binds microbial surfaces through carbohydrate recognition domains. MBL deficiency may contribute to susceptibility to a variety of infectious diseases, particularly in young children. MBL binds to the Cryptosporidium sporozoite and may be important in resistance to cryptosporidiosis., Methods: We studied the association of serum MBL levels and cryptosporidiosis in a case-control study of young Haitian children with cryptosporidiosis versus children who were control subjects., Results: Ninety-nine children were enrolled, as follows: 49 children with cryptosporidiosis, 41 healthy controls, and 9 children with diarrhea from other causes. Case children were more malnourished than controls, and 49% had persistent or chronic diarrhea. At enrollment, mean serum MBL levels were markedly lower in children with cryptosporidiosis (P = .002), as was the number of children with an MBL deficiency of < or = 70 ng/mL (P = .005). In multivariate analysis, the association of cryptosporidiosis and MBL deficiency persisted (P = .002; adjusted odds ratio, 22.4), as did the association of cryptosporidiosis with general malnutrition. The subset of children with cryptosporidiosis and MBL deficiency were more likely to be male (P = .025)., Conclusions: MBL may be an important component of innate immune protection against Cryptosporidium infection in young children. Additional studies are necessary to determine whether MBL intestinal losses, deficient epithelial expression, and/or genetic polymorphisms in the MBL gene contribute to MBL deficiency in cryptosporidiosis and other enteric infections in young children.

Published

2006