Hookworm Infection Clinical Trial
Official title:
Phase 1 Study of the Safety and Immunogenicity of Na-GST-1/Alhydrogel® With or Without GLA-AF in Brazilian Adults
This two part study will evaluate the safety and immunogenicity of two formulations of Na-GST-1, first in hookworm-naïve individuals using an open-label design, and then in adults living in an area of endemic hookworm infection using a randomized, double-blind design. The two formulations to be evaluated are Na-GST-1 adsorbed to an adjuvant, Alhydrogel®, and Na-GST-1 adsorbed to Alhydrogel® and administered with GLA-AF.
Human hookworm infection is a soil-transmitted helminth infection caused by the nematode
parasites Necator americanus and Ancylostoma duodenale. It is one of the most common chronic
infections of humans, afflicting up to 740 million people in the developing nations of the
tropics. The largest number of cases occurs in impoverished rural areas of sub-Saharan
Africa, Southeast Asia, China, and the tropical regions of the Americas. Approximately 3.2
billion people are at risk for hookworm infection in these areas. N. americanus is the most
common hookworm worldwide, whereas A. duodenale is more geographically restricted.
The primary approach to hookworm control worldwide has been the frequent and periodic mass
administration of benzimidazole anthelminthics to school-aged children living in
high-prevalence areas. In 2001, the World Health Assembly adopted Resolution 54.19 which
urges member states to provide regular anthelminthic treatment to high-risk groups with the
target of regular treatment of at least 75% of all at-risk school-aged children. However,
the cure rates for a single dose of a benzimidazole varies with rates as low as 61% (400 mg)
and 67% (800 mg) for albendazole and 19% (single dose) and 45% (repeated dose) for
mebendazole being reported. These concerns have prompted interest in developing alternative
tools for hookworm control. Vaccination to prevent the anemia associated with moderate and
heavy intensity hookworm infection would alleviate the public health deficiencies of drug
treatment alone.
The current strategy for development of Human Hookworm candidate vaccines is focused on
antigens expressed during the adult stage of the hookworm life cycle which play a role in
digesting the host hemoglobin, used by the worm as an energy source. These antigens are
relatively hidden from the human immune system during natural infection, and hence have a
low likelihood of inducing antigen-specific IgE in exposed/infected individuals, reducing
the potential for allergic reaction upon vaccination.
The nutritional and metabolic requirements of the adult hookworm living in the human
intestine are dependent upon degradation of host hemoglobin that has been ingested by the
worm. N. americanus hookworms depend on host hemoglobin for survival. Following hemolysis,
adult hookworms use an ordered cascade of hemoglobinases to cleave hemoglobin into smaller
molecules. Following hemoglobin digestion, the freed heme generates toxic oxygen radicals
that can be bound and detoxified by molecules such as glutathione S-transferase-1 (GST-1).
GST-1 of N. americanus (Na-GST-1) is a critical enzyme that plays a role in parasite blood
feeding; when used as a vaccine, the investigators hypothesize that the antigen will induce
anti-enzyme neutralizing antibodies that will interfere with parasite blood-feeding and
cause parasite death or reduce worm fecundity.
Following its selection as a candidate antigen Na-GST-1 has been successfully manufactured
and tested in the laboratory and in animals with both Alhydrogel® (aluminum hydroxide
suspension)and Alhydrogel® plus Gluco-Pyranosylphospho-Lipid A Aqueous Formulation (GLA-AF).
Na-GST-1 has been shown to be pure, potent, and stable when administered as either of these
two formulations.
The Na-GST-1 vaccine formulations to be tested in this study consist of the 24 kDa
recombinant protein Na-GST-1 adsorbed to Alhydrogel® either with or without the addition of
GLA-AF. For the Na-GST-1/GLA-AF formulation, the GLA-AF will be added to the Alhydrogel®
formulation immediately prior to immunization. The active ingredient in both vaccine
formulations is the recombinant Na-GST-1 protein that is derived by fermentation of Pichia
pastoris yeast cells genetically engineered to express Na-GST-1.
In this first-in-human study, the evaluation of the safety and immunogenicity of the
Na-GST-1 and Na-GST-1/GLA-AF formulations will be conducted in two parts. First, healthy
adults who have not been infected with or exposed to hookworm will be enrolled in the urban
center of Belo Horizonte, Brazil. Hookworm in Brazil is primarily a rural disease and is
uncommon in developed urban areas such as Belo Horizonte. If no significant safety concerns
are observed in these volunteers, the study will proceed to enroll and vaccinate healthy
adults in a hookworm-endemic region of the state of Minas Gerais, Brazil. The vaccine
formulations will be tested in both populations (i.e., non-endemic and endemic areas), given
the possibility that the safety profile of the vaccine formulations may be different in a
population that has been chronically exposed to the antigen contained in these vaccines.
In Part I of the study, 36 volunteers will be enrolled into one of six cohorts. In the first
cohort, 6 individuals will receive the 10 µg dose of Na-GST-1/Alhydrogel®; in the second
cohort, 6 individuals will receive the 10 µg dose of Na-GST-1/Alhydrogel®/GLA-AF; in the
third and fourth cohorts, 6 volunteers each will receive 30 µg Na-GST-1/Alhydrogel® and
Na-GST-1/Alhydrogel®/GLA-AF, respectively; while in the fifth and sixth cohorts, 6
volunteers each will receive 100 µg Na-GST-1/Alhydrogel® and Na-GST-1/Alhydrogel®/GLA-AF,
respectively. Enrollment of these cohorts will be staggered by one-week intervals: Cohorts 2
and 3 will be enrolled and begin vaccinations 1 week after Cohort 1, Cohorts 4 and 5 will be
vaccinated 1 week after Cohorts 2 and 3, and Cohort 6 will be vaccinated 1 week after
Cohorts 4 and 5.
In Part II of the study, 66 volunteers will be progressively enrolled into one of six dose
cohorts. In the first, third and fifth cohorts, volunteers will be randomized to receive
either Na-GST-1/Alhydrogel® (n=8) or Butang® (n=2), while in the second, fourth and sixth
cohorts, volunteers will be randomized to receive either Na-GST-1/Alhydrogel® (n=2) or
Na-GST-1/Alhydrogel®/GLA-AF (n=10). Volunteers randomized to receive Na-GST-1 will receive
either the 10 µg, 30 µg or 100 µg dose. In order to ensure that the vaccine formulations
will be evaluated in individuals recently infected with hookworm, at least 4 individuals
will be enrolled into each of the Part II chohorts who were infected with hookworm based on
the fecal exam conducted during the screening for the study, or who had a documented
infection within 3 months of the date planned for the first vaccination for the participant.
The investigators have chosen the Butang® hepatitis B vaccine (Instituto Butantan, Sao
Paulo, Brazil) as the comparator vaccine for five principal reasons: (1) it is likely to
confer some benefit to the participants receiving it, (2) it has an established safety
record, (3) it is a yeast-derived recombinant protein adsorbed to an aluminum-containing
immunostimulant, (4) it has the same physical appearance as Na-GST-1 immunostimulanted with
Alhydrogel, and (5) its dosing schedule permits easy incorporation into the study design.
Furthermore, Butang® is the most widely-used hepatitis B vaccine in Brazil, with over 15
million doses distributed annually.
Each participant will recieve 3 doses of the assigned study agent given in 56 day intervals
(i.e. Day 0, Day 56 and Day 112). The trial is expected to last for a total of 24 months.
Each participant will be followed for 16 months from the time of the first injection.
Safety parameters will be monitored throughout both parts of the study. The primary
immunological endpoint for both parts will be the measurement of the antigen-specific
antibody response.
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