Prevalence of CYP2C8*2 and *3 among Eritreans and its Potential Impact on Artesunate/Amodiaquine Treatment.

BACKGROUND: In Eritrea, artesunate-amodiaquine is the first-line treatment against uncomplicated malaria. Amodiaquine, which is mainly bio-transformed by CYP2C8, is known to be associated with adverse events of different severity. Extrapyramidal events are among the less common but have been reported with non-negligible frequency in Eritrea. This study was conducted to investigate the allele frequencies of CYP2C8*2 and *3, both associated with decreased amodiaquine metabolism, among the Eritrean population.
METHODS: During September-November 2018, dried blood samples from 380 participants and 17 patients who previously had experienced extrapyramidal symptoms following treatment of artesunate-amodiaquine were collected and PCR-RFLP genotyped for CYP2C8*2 and *3.
RESULTS: The allele frequencies of CYP2C8*2 and *3 were determined as 5.9% (95% CI: 4.4-7.8) and 4.6% (95% CI: 3.2-6.3), respectively. Four out of the 17 patients with extrapyramidal reactions showed to be carriers of the alleles.
CONCLUSION: CYP2C8*2 and *3 frequencies among Eritreans were found to be intermediate between the documented for Caucasian and African populations. These findings, along with the alleles not being decisive for the occurrence of extrapyramidal events, might be of importance regarding the amodiaquine-containing malaria treatment in Eritrea. Furthermore, it suggests a significant proportion of slow amodiaquine metabolizers in the Sahel region, information of potential interest in the context of amodiaquine-involving seasonal malaria chemoprevention.

Plain Language Summary

Of the globally reported artesunate–amodiaquine (AS-AQ)-related extrapyramidal symptoms (2018), >50% were submitted from Eritrea. The causes/factors for this population-specific increased incidence of extrapyramidal symptoms are not known. We hypothesized that mutations in CYP2C8, associated to reduced amodiaquine metabolism, might be more frequent among Eritreans, potentially leading to the adverse effects. In 2018, dried blood samples were collected from 380 non-malaria patients and 17 people who experienced extrapyramidal symptoms following treatment with AS-AQ. Molecular analysis of the samples collected from all parts of Eritrea was performed in Uppsala University, Sweden. The results reveal that allele frequencies of CYP2C8*2 and *3, both associated with decreased AQ metabolism, were determined as 5.9% and 4.6%, respectively. These results reflect that the Eritrean population is significantly different from other African populations. Most of the 17 cases did not carry CYP2C8 minor alleles, clearly showing that such adverse effects can occur independently of the patient genotype status for this gene. This pilot study was however too small for testing possible associations with these variants; thus, warrants further larger studies. Our results further fuel the intriguing question if the specific CYP2C8 profile in the Eritrean population drives an overall increased risk of AQ-related extrapyramidal reactions.

Introduction

Malaria is a key public health issue in Eritrea, with 70% of the national population considered to be in high risk of the disease and >50,000 new cases being reported every year, mostly Plasmodium falciparum infections.1 The fixed-dose artesunate–amodiaquine (AS-AQ) combination is the first-line of treatment for uncomplicated malaria. In recent years, extrapyramidal symptoms associated with AS-AQ have been frequently observed in Eritrea,2 representing >50% of such reports in VigiBase, the WHO global database of individual case safety reports (December 2018).3 The causes/factors for this population-specific incidence of AS-AQ related extrapyramidal symptoms are not known.

Amodiaquine is mainly metabolized by the hepatic cytochrome P450 (CYP) 2C8.4 The CYP2C8 gene harbours a number of sequence polymorphisms leading to decreased biotransformation capacity of amodiaquine. Globally, CYP2C8*2 and *3 are the most prevalent, with *3 suggested to result in significantly impaired metabolism.5 CYP2C8*2, defined by an I269F change (exon 5, 805A>T), is the most frequent minor allele present in sub-Saharan regions (10–20%), while *3 (R139K, exon 3, 416G>A and 399, exon 8 in absolute linkage) is dominant among Caucasians6 but rare in Africans (<0.5%).7

Eritrea is located in the Eastern Sahel region - a natural interface between African and Arabian speaking Caucasian populations – where CYP2C8 allele frequencies are not known. This study was conducted to determine the prevalence of CYP2C8 polymorphism for the first time in Eritrea, part of the Sahel belt. In parallel, we conducted a pilot analysis of a group of previous malaria patients who have experienced extrapyramidal effects upon AS-AQ treatment.

Materials and Methods

A hospital-based cross-sectional study was conducted between September and November 2018 in hospitals covering all (six) administrative regions of Eritrea (Figure 1). A total of 380 unrelated subjects (160 males, 220 females, mean age: 31 years), covering the major Eritrean ethnic groups, were randomly recruited from the outpatient departments. None of these subjects were malaria patients or, to our knowledge, exposed to amodiaquine in connection with the study.

Figure 1

Map of Eritrea, its six administrative regions and the geographic distribution of the sampling points (health facilities in each zone) covering all of the regions of the country.

In total, 17 previous malaria patients with experience of AS-AQ related extrapyramidal symptoms, were retrospectively retrieved from the Eritrean Pharmacovigilance Centre, were recruited and analysed separately. Upon informed consent, a blood sample (ca. 200µL) was obtained for each enrolled patient and preserved as dried blood spots in filter paper. All procedures and interactions with subjects followed the recommendations of the Declaration of Helsinki Convention in its latest iteration.

DNA-extractions were performed through a rapid boiling-based method as previously described,8 with minor modifications. Polymerase chain reaction primers were as follows: for 805A>T analysis (*2): 5ʹ-ATGTTGCTCTTACACGAAGTTACA-3ʹ (fw) and 5ʹ-ATCTTACCTGCTCCATTTTGA-3ʹ (rev). For 416G>A (*3), 5ʹ-CTTCCGTGCTACATGATGACg-3ʹ (fw, incl. 3ʹ mismatch) and 5ʹ-TGCTGAGAAAGGCATGAAG-3ʹ (rev).9 This was followed by digestions with BclI (805A>T) and XmnI (416G>A). Restriction results were visualized through 2.5% agarose electrophoresis. Fisher’s exact test was applied for proportion comparisons.

Results

The 380 subjects were successfully genotyped for both CYP2C8*2 and *3. Approximately 10.5% were carriers of *2 and 8.2% of *3, resulting in allele frequencies of 5.9% (95% CI: 4.4–7.8) and 4.6% (95% CI: 3.2–6.3) respectively (Table 1). Both alleles were found to be in Hardy–Weinberg equilibrium (Fisher’s exact test, p>0.2). Concerning the 17 cases that have experienced AS-AQ-associated extrapyramidal effects, four showed to be carriers of the *2 and/or *3 allele (Table 1).

Table 1

CYP2C8 Genotype and Allele Frequencies Among Selected Eritrean Population, 2018

	N	Genotype Frequency (%) (95% CI)						CYP2C8*2 Frequency (%) (95% CI)	CYP2C8*3 Frequency (%) (95% CI)
		*1/*1a	*1/*2	*1/*3	*2/*2	*3/*3	*2/*3
General population	380	82.1 (77.9–85.8)	8.4 (5.8–11.7)	6.3 (4.1–9.3)	1.3 (0.4–3.0)	1.1 (0.3–2.7)	0.8 (0.2–2.3)	5.9 (4.4–7.8)	4.6 (3.2–6.3)
Patients with EPSb	17	76.5 (50.1–93.2)	5.9 (0.1–28.7)	11.8 (1.5–36.4)	–	–	5.9 (0.1–28.7)	5.9 (0.7–19.7)	8.8 (1.9–23.7)

Notes: aIn the context of this work, *1 strictly indicates the absence of a *2 or *3 allele. bPatients with previous clinically documented artesunate–amodiaquine associated extrapyramidal symptoms.

Abbreviations: N, number of enrolled subjects; CI, confidence interval; CYP, cytochrome P450; EPS, extrapyramidal symptoms.

Discussion

This is the first study investigating CYP2C8 polymorphism in the Eastern Sahel region. Compared to other Africans,5,9–18 the *2 allele frequency among Eritreans is markedly lower, while the *3 frequency was found to be second highest in Africa; following a regional Tanzanian study.18 The prevalence of CYP2C8*3 polymorphism in most African countries was reported to be negligible, less than 0.5%, except in Zanzibar (2.1%)9 and Tanzania (10%).18 This finding might therefore be of concern since amodiaquine is a key antimalarial used for the treatment of uncomplicated malaria, presently pivotal in the Eritrean malaria control program. Extrapolating from the obtained data, one could expect at least one *3/*3 carrier for every 200–400 individuals, which are potentially in higher risk of amodiaquine-related adverse effects including extrapyramidal reactions.

Sulfadoxine-pyrimethamine/amodiaquine seasonal malaria chemoprevention, though not implemented in Eritrea, is mostly targeted for populations in the Sahel belt during seasonal malaria. Assuming data as representative of populations from these African/Caucasian interface regions, the reported CYP2C8*3 frequency raises a moderate apprehension, as this allele has been previously associated with accelerated selection of parasite carrying resistance markers.19 Furthermore, the optimal use of amodiaquine should carefully consider the characteristics of the targeted setting and population.20

Concerning the specific issue of amodiaquine-driven extrapyramidal effects and CYP2C8, this pilot study could only conclude that the presence of *2 or *3 is not an essential condition for their occurrence. Other key genetic factors are likely to be involved and thus, future larger associative studies are required for their identification.

CYP2C8 is involved in the biotransformation of a range of relevant therapeutics, including widely used antidiabetics (eg repaglinide), cytostatics (eg paclitaxel) and statins (eg cerivastatin).21 Our data suggests as such the potential for specific drug exposures beyond amodiaquine in this population. The future of precision medicine initiatives in Africa is dependent on a better understanding of native pharmacogenetic specificities.22 Studies like the present one showcases the pharmacogenetic diversity of the continent and the need of its better characterization.

Conclusion

CYP2C8*2 and *3 are present among the Eritreans in prevalence intermediate between the Caucasian and sub-Saharan populations. To our knowledge, this is the first population reported with such a profile, suggesting that populations in the Sahel region include a significant proportion of amodiaquine low-metabolizers. This represents potentially valuable information when monitoring amodiaquine-containing therapeutic strategies in these regions, including seasonal malaria chemoprevention.