Golden Syrian Hamsters as a Model for Revisiting the Role of Biological Sex Differences in SARS-CoV-2 Infection

ABSTRACT There is growing evidence that coronavirus disease 2019 (COVID-19) affects males more severely than females, including compelling evidence indicating that biological sex is an important clinical factor influencing disease pathology and outcomes. In their recent article in mBio, S. Dhakal, C. A. Ruiz-Bedoya, R. Zhou, P. S. Creisher, et al. (mBio 12:e00974-21, 2021, https://doi.org/10.1128/mBio.00974-21) find further evidence to support this hypothesis as they interrogate biological sex differences in the pathogenesis and clinical features of COVID-19 in the golden Syrian hamster model. Their study probes SARS-CoV-2 infection in terms of loss of body mass, recovery, lung compromise, viral replication, inflammatory response, immune response, and, most importantly, the role of estrogen. They also demonstrate the value of a novel unbiased, quantitative chest computed tomography (CT) imaging approach. The golden Syrian hamster model holds a promising opportunity to further investigate how biological sex acts as a primary determinant in SARS-CoV-2 pathogenesis, as also demonstrated in this study.

lung disease and disease severity is male sex dependent in golden Syrian hamsters through a yet-unknown mechanism (13). In an attempt to investigate the question of biological sex as a factor with COVID-19, Dhakal et al. (14) have provided important insights by using the golden Syrian hamster. In their study, several clinical findings resembled those observed in previous COVID-19 studies in humans (viral replication, cytokine storm, antibody response, and respiratory compromise). This supports use of the golden Syrian hamster as a de facto standard model for studying  The study showed that viral replication in the respiratory tract was similar between sexes, establishing an equal susceptibility to SARS-CoV-2 infection in controlled settings. Morbidity was assessed systemically in terms of body mass and locally in terms of pulmonary damage. Loss of body mass was significantly greater in males (217.3 6 1.9%) than in females (212.3 6 1.8%) after 8 to 10 days postinfection (dpi), with recovery to baseline body mass taking up to 3 weeks for males compared to 2 weeks for females. Uniquely, the authors provided a novel unbiased chest computed tomography (CT) scoring method to evaluate respiratory compromise with potential application to other animal models. In this study, lower CT scores of pulmonary consolidation were observed in females compared to males. This method for quantitative CT imaging analysis is a promising tool for evaluating lung disease that can reduce bias in visual assessment and improve the reproducibility of results in future studies.
The authors go a step further and evaluate how estradiol (E2) treatment in males affects SARS-CoV-2 disease severity. Sexual hormones such as E2 have been implicated in enhancing the immunologic and humoral response phenotype in females during viral infections (reviewed in reference 15). Strikingly, E2 administration in gonadally intact male hamsters before infection did not improve morbidity outcomes (body mass loss, CT score, and histology findings) compared to placebo-treated males. This suggests that E2 administration for a short period is insufficient for replicating the expected long-lasting effects of female hormones in males. Besides the dual effect of high and low E2 concentrations, the type of receptor and distribution among cell types are additional factors to be considered (16). Considering that E2 levels in treated males reached up to ;150 pg/ml, an important topic of future investigation will be how the estrous cycle (30 to 700 pg/ml) in golden Syrian hamsters affects the SARS-CoV-2 response. This also raises questions for further investigation about the role of other sex-related hormones, particularly testosterone, as the authors noted. Also, SARS-CoV-2 has been detected in the testes of infected golden Syrian hamsters and may be important to understanding fundamental aspects of short-and long-term impact of COVID-19 in male reproductive health (17).
Similarities with the human inflammatory response to SARS-CoV-2 further support the use golden Syrian hamsters to investigate aspects of the immune response (e.g., cytokine storm and type I interferon [IFN] response) in COVID-19. Although the study showed most cytokine lung homogenate levels were similarly higher in infected animals for both sexes, only males showed higher lung Tnfa expression and protein levels in the first days postinoculation (lung at 2 dpi) correlating with viral load. Considering biological sex differences, it has been shown that Tnfa increases the conversion of local and systemic androgens to estrogens through aromatase in inflammatory conditions (reviewed in reference 18), which may increase the humoral response and the proliferation of antigen-presenting cells. A relevant topic for future investigation will be whether androgen conversion to estrogen (a known risk for autoimmunity) also occurs in golden Syrian hamsters and if resulting stimuli could give clues to the rise of autoantibodies (type I interferons) observed in COVID-19 severity and recovery (19). Hence, the measurement of sexual hormones will provide insights of how they affect the course of disease. Most notably, Dhakal et al. provide evidence that cytokine levels have a limited correlation with sex differences and that differences in disease outcomes are influenced primarily by biological sex through another mechanism or combination of mechanisms (Fig. 1).
These authors also showed compelling evidence that females mount a higher and broader humoral response than males during SARS-CoV-2 infection. The study showed this with IgM, IgA, and IgG antibody responses against the receptor-binding domain of the spike protein (S-RBD). Females also showed a greater cross-reactive antibody response to SARS-CoV-2 S-RBD variants (anti-S-RDB IgG, wild type, N501Y, Y453F, N439K, and E484K). Similar results were also observed at the tissue level. It will be of interest to further evaluate whether androgen treatment influences humoral response and priming in females and whether the infectiousness of emerging SARS-CoV-2 variants of concern is sex biased.
Broadly speaking, this is an exciting study that further demonstrates how key clinical features resembling COVID-19 are observed in golden Syrian hamsters upon SARS-CoV-2 infection and how those features can vary by sex. The results of the study are intriguing and contribute to many questions yet unanswered of how biological sex influences SARS-CoV-2 infection outcomes in golden Syrian hamsters with clear implications for human COVID-19. The key to understanding this phenomenon starts with recognizing that biological sex transcends its usual classification as a demographic variable, and sex-associated features have distinct contributions in healthy and pathological conditions. These features include the microbiome, hormonal changes, metabolism (adipose tissue distribution), behavior, and genetics (Xchromosome genes such as TLR7 and ACE2 and related haploinsufficiency in males) (20,21). The implications of this study by Dhakal et al. extend to other fields of biology, as well as medicine and epidemiology, and may foster comparative analysis, primarily on infections, but also on a wide range of diseases to help understand and increase the reproducibility of results among studies.
Potential mechanism(s) underlying the biological sex differences that need to be investigated include genetics (X-inactivation, genetic variants, and epigenetics), microbiome (metabolomics), sex hormones (androgen, estrogen, and estrous cycle), Interestingly, however, female hamsters show lower morbidity, developing less extensive pneumonia, and greater antibody response to SARS-CoV-2 than male hamsters. Differences in sex hormone, estradiol (E2), may drive the differential susceptibility, although exogenous addition of E2 does not reverse the male susceptibility (14).
Commentary ® metabolism (biological sex differences in adipose tissue distribution, visceral and subcutaneous), and aging.
We thank Dr. Robert Lawrence for helpful comments. IUM serves on the Scientific Advisory Board of Luca Biologics. No other conflicts of interest exist.