Avoid common mistakes on your manuscript.
To the Editor: “Fulminant” Type 1 diabetes, characterised by diabetic ketoacidosis, low HbA1c level at onset, insulin deficiency and elevated serum pancreatic enzymes, has been reported in the Japanese population of Type 1 diabetes patients [1]. The study reported that islet-associated autoantibody was not detected, and insulitis was not found on pancreatic biopsy within 5 months of the onset of disease. Therefore, this type of diabetes was described as a subtype of Type 1B diabetes [1]. However, others reported clear T cell insulitis at autopsy in a patient who died 40 minutes after arrival at hospital [2], and a nationwide survey of fulminant Type 1 diabetes revealed that approximately 5% of patients had anti-GAD antibody in their serum [3], suggesting that autoimmunity may be involved in this type of Type 1 diabetes. Following the first report on fulminant Type 1 diabetes [1], many others tried to find a similar phenotype of Type 1 diabetes in the Caucasian population, but they reported that very few cases were found [4]. Therefore, although establishment of the diagnosis and treatment of this subtype of Type 1 diabetes is required at a nationwide level in Japan due to its aggressive disease course, it seems that very few Caucasian researchers are interested in fulminant Type 1 diabetes.
Previously, by several researchers including our group, an encephalomyocarditis (EMC)-virus-induced diabetes model was used as a tool to investigate Type 1 diabetes [5]. Intraperitoneal injection of male DBA/2 mice with 500 plaque-forming units of EMC virus diabetic strain can induce very rapid onset of diabetes (in approximately a few days) (Fig. 1). As indicated by the arrow in Figure 1, just before the onset of hyperglycaemia, the blood glucose level in EMC-virus-injected mice drops into the hypoglycaemic range. This is probably because the destruction of beta cells is extremely acute so that insulin in the destroyed beta cells may flow into the blood stream within a short period of time. Interestingly, a similar phenomenon was also observed in fulminant Type 1 diabetes in humans. Fasting hypoglycaemia, reaching to 3.2 mmol/l, was observed 2 days before the onset of fulminant Type 1 diabetes in a 48-year-old Japanese woman (I. Mineo, Otemae Hospital, Osaka, Japan; personal communication). Not only the very rapid onset pattern but also the involvement of exocrine tissue damage, as indicated by histological findings and the high serum amylase level (Fig. 1), in the EMC-virus-induced diabetes model resembles fulminant Type 1 diabetes (Table 1). Although it has been recognised that the EMC virus diabetic strain does not infect exocrine acinar cells, this virus does infect exocrine glands in Mongolian gerbils [6] and Syrian hamsters, suggesting that it may also cause exocrine damage in mice as we presented here. Moreover, approximately 70% of fulminant Type 1 diabetic patients have a history of flu-like symptoms such as fever, headache, sore throat, coughing, rhinorrhoea and joint pain, suggesting the involvement of viral infection in this type of Type 1 diabetes [3]. The aetiology of fulminant Type 1 diabetes is still controversial and there is discussion regarding the involvement of autoimmunity other than in relation to viral infection [7]. However, islet-associated autoantibody was also detected in the EMC-virus-induced diabetes model, suggesting that even if viral infection induces diabetes, autoantibody can be detected [5]. Finally, because the RIP-LCMV [8] and Ins-HA models are characterised by slow onset of diabetes (usually a matter of months), they are obviously different from models of fulminant Type 1 diabetes. Based upon this evidence, we propose that the EMC-virus-induced diabetes model can be used as a model of fulminant Type 1 diabetes, and we encourage non-Japanese researchers to take an interest in this phenotype of Type 1 diabetes.
References
Imagawa A, Hanafusa T, Miyagawa J, Matsuzawa Y (2000) A novel subtype of Type 1 diabetes mellitus characterized by a rapid onset and an absence of diabetes-related antibodies. N Engl J Med 342:301–307
Tanaka S, Kobayashi T, Momotsu T (2000) A novel subtype of Type 1 diabetes mellitus. N Engl J Med 342:1835–1837
Imagawa A, Hanafusa T, Uchigata Y et al. (2003) Fulminant Type 1 diabetes: a nationwide survey in Japan. Diabetes Care 26:2345–2352
Pozzilli P, Visalli N, Leslie D (2000) No evidence of rapid onset (Japanese) Type 1 diabetes in Caucasian patients. IMDIAB Group. Diabetologia 43:1332
Maruyama T, Takei I, Asaba Y et al. (1989) Insulin autoantibodies in mouse models of insulin-dependent diabetes. Diabetes Res 11:61–65
Matsuzaki H, Doi K, Mitsuoka T, Tsuda T, Onodera T (1989) Experimental encephalomyocarditis virus infection in Mongolian gerbils (Meriones unguiculatus). Vet Pathol 26:11–17
Shimada A, Morimoto J, Kodama K et al. (2002) T-cell-mediated autoimmunity may be involved in fulminant Type 1 diabetes. Diabetes Care 25:635–636
Christen U, Benke D, Wolfe T et al. (2004) Cure of prediabetic mice by viral infections involves lymphocyte recruitment along an IP-10 gradient. J Clin Invest 113:74–84
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Shimada, A., Maruyama, T. Encephalomyocarditis-virus-induced diabetes model resembles “fulminant” Type 1 diabetes in humans. Diabetologia 47, 1854–1855 (2004). https://doi.org/10.1007/s00125-004-1538-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00125-004-1538-9