Ancylostoma Ceylanicum

Ancylostoma Ceylanicum

Wei et al. Parasites & Vectors (2016) 9:518 DOI 10.1186/s13071-016-1795-8 RESEARCH Open Access The hookworm Ancylostoma ceylanicum intestinal transcriptome provides a platform for selecting drug and vaccine candidates Junfei Wei1, Ashish Damania1, Xin Gao2, Zhuyun Liu1, Rojelio Mejia1, Makedonka Mitreva2,3, Ulrich Strych1, Maria Elena Bottazzi1,4, Peter J. Hotez1,4 and Bin Zhan1* Abstract Background: The intestine of hookworms contains enzymes and proteins involved in the blood-feeding process of the parasite and is therefore a promising source of possible vaccine antigens. One such antigen, the hemoglobin-digesting intestinal aspartic protease known as Na-APR-1 from the human hookworm Necator americanus, is currently a lead candidate antigen in clinical trials, as is Na-GST-1 a heme-detoxifying glutathione S-transferase. Methods: In order to discover additional hookworm vaccine antigens, messenger RNA was obtained from the intestine of male hookworms, Ancylostoma ceylanicum, maintained in hamsters. RNA-seq was performed using Illumina high-throughput sequencing technology. The genes expressed in the hookworm intestine were compared with those expressed in the whole worm and those genes overexpressed in the parasite intestine transcriptome were further analyzed. Results: Among the lead transcripts identified were genes encoding for proteolytic enzymes including an A. ceylanicum APR-1, but the most common proteases were cysteine-, serine-, and metallo-proteases. Also in abundance were specific transporters of key breakdown metabolites, including amino acids, glucose, lipids, ions and water; detoxifying and heme-binding glutathione S-transferases; a family of cysteine-rich/antigen 5/pathogenesis-related 1 proteins (CAP) previously found in high abundance in parasitic nematodes; C-type lectins; and heat shock proteins. These candidates will be ranked for downstream antigen target selection based on key criteria including abundance, uniqueness in the parasite versus the vertebrate host, as well as solubility and yield of expression. Conclusion: The intestinal transcriptome of A. ceylanicum provides useful information for the identification of proteins involved in the blood-feeding process, representing a first step towards a reverse vaccinology approach to a human hookworm vaccine. Keywords: Hookworm, Ancylostoma ceylanicum, Intestine, Transcriptome, Vaccine candidate Background using sharp teeth or cutting plates, causing significant Human hookworm infection remains one of the leading host blood loss. As a consequence, hookworm infection neglected tropical diseases (NTDs), affecting more than is the major cause of iron-deficiency anemia in endemic 400 million people living in developing countries and regions [3]. Current control of hookworm infection causing the loss of about 3.2 million disability adjusted mainly relies on mass drug administration with a single life years (DALYs) [1, 2]. Hookworm is a blood-feeding annual dose of an anthelmintic such as albendazole or nematode that hooks onto the host intestinal mucosa mebendazole. However, a recent systematic analysis revealed that anthelmintic treatment with mebendazole had no impact on the improvement of anemia in * Correspondence: [email protected] hookworm-infected regions [4] and is associated with a 1Sabin Vaccine Institute and Texas Children’s Hospital Center for Vaccine Development, National School of Tropical Medicine, Baylor College of low cure rate overall [5, 6], while the cure rates with Medicine, Houston, TX 77030, USA Full list of author information is available at the end of the article © 2016 The Author(s). Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. Wei et al. Parasites & Vectors (2016) 9:518 Page 2 of 14 albendazole were highly variable [7]. Therefore, develop- not directly exposed to the host immune system during ment of a vaccine has emerged as a practical and feasible natural infection, thereby reducing the likelihood of alternative technology to control hookworm infection or eliciting host IgE responses and allergic antibodies. complement anthelmintic drug treatment [1, 8]. A hu- This issue had previously thwarted other vaccine de- man hookworm vaccine is considered both cost-effective velopment efforts for infective larval stage-derived an- and cost-saving relative to mass drug administration [9]. tigens [19]. Hookworm infection begins when infective larvae In an effort to identify additional antigens in the hook- penetrate the skin of the host and migrate through the worm intestine that might be suitable for the develop- circulatory system and the lungs before reaching the in- ment of novel vaccine antigens and therapeutics, we testine, where they develop into adult worms and start undertook an antigen discovery program. Based on the blood-feeding [3]. The hookworm’s survival exclusively success of previous reverse vaccinology programs for depends on blood-feeding and the digestion of blood selecting bacterial vaccine antigens [20], we are inter- proteins including hemoglobin and serum proteins as a ested in initiating a similar approach for the human major source of nutrition [10]. During the past decade, hookworm vaccine based on the gut transcriptome. Such the molecular basis of this blood-feeding process and antigens could be added to, or considered alternatives the digestion has been partially identified as a cascade of to, the current candidates, depending on the progression hemoglobinases [11]. After the worm takes up blood of the clinical trials. We believe that the complete profile into the intestine, the red blood cells are lysed by of the hookworm intestine’s gene expression pattern hemolysin and hemoglobin is released. The released could significantly facilitate this selection process. For hemoglobin is degraded and digested by a series of this study we used Ancylostoma ceylanicum as a model, hemoglobinases, initiating cleavage of the hemoglobin a hookworm that infects both animals (e.g. dogs, molecule by an aspartic protease (APR) [12, 13], hamsters) and humans (in focal areas of Malaysia and followed by further digestion with several cysteine prote- elsewhere in Southeast Asia) and expresses proteins ases [10, 14] and metalloproteinases [15]. These sharing high homology with the two major human hook- proteases are expressed in the brush border membrane worms N. americanus and A. duodenale [21] which only of the parasite's intestine [10, 15, 16]. A vaccine develop- infect humans and cannot properly infect laboratory ani- ment strategy is in process that focuses on interfering mals without the use of immunosuppressant [22]. The with the blood-feeding process of the hookworm. It full transcriptome of the A. ceylanicum adult intestine targets proteins, including enzymes, found in the gut of was sequenced and analyzed. The results reveal some the major human hookworm, Necator americanus, and new macromolecules likely involved in parasite survival involved in the degradation of hemoglobin and the in the mammalian host with the potential to serve as detoxification of breakdown products of the process [1]. future vaccine candidates or drug targets for controlling Vaccination elicits anti-enzyme antibodies that can reach hookworm infections. the hookworm intestine through blood feeding and sub- sequently inactivate their target enzymes in the hook- Methods worm’s digestive tract and other organs. Among the lead Preparation of A. ceylanicum intestinal RNA candidate antigens are Na-APR-1, a cathepsin-D aspartic Hookworm A. ceylanicum was maintained in hamsters protease required for hemoglobin digestion and Na-GST-1, according to protocol AN-5762 approved by Baylor a glutathione-S transferase involved in detoxification of College of Medicine’s Institutional Animal Care and Use toxic heme derived from hemoglobin digestion – both Committee (IACUC). Fresh A. ceylanicum adult worms molecules induce significant protective immunity in vacci- were recovered from the intestines of hamsters 21 days nated animals against hookworm infection [16, 17]. These after infection with A. ceylanicum larvae [23]. In order two antigens have been selected as the leading hookworm to avoid contamination from the worm’s reproductive vaccine antigens for product development and are cur- organs and eggs, only male worms were collected. Total rently in phase 1 clinical trials [1, 8]. Ac-CP-2, another hookworm intestinal tissue was isolated from 50 male cysteine protease of the canine hookworm Ancylostoma adult worms. The anterior esophagus and any contamin- caninum, was also determined to be expressed on the in- ating reproductive organs were removed. The isolated testine brush-border membrane. Like Na-APR-1, labora- intestines were preserved immediately in RNAlater tory animals vaccinated with recombinant Ac-CP-2 also (Qiagen, Hilden, Germany) to prevent degradation of produced antibodies that stunted worm development and RNA. Total RNA was extracted from the hookworm reduced egg count after being challenged with hookworm intestines using Trizol

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