Bringing the human pancreas into focus: new paradigms for the understanding of Type 1 diabetes.
Noel G MorganPublished in: Diabetic medicine : a journal of the British Diabetic Association (2017)
Type 1 diabetes affects increasingly large numbers of people globally (including at least half a million children under the age of 14 years) and it remains an illness with life-long and often devastating consequences. It is surprising, therefore, that the underlying aetiology of Type 1 diabetes remains poorly understood. This is largely because the cellular and molecular processes leading to the loss of β cells in the pancreas have rarely been studied at, or soon after, the onset of disease. Where such studies have been undertaken, a number of surprises have emerged which serve to challenge conventional wisdom. In particular, it is increasingly understood that the process of islet inflammation (insulitis) is much less florid in humans than in certain animal models. Moreover, the profile of immune cells involved in the inflammatory attack on β cells is variable and this variation occurs at the level of individual patients. As a result, two distinct profiles of insulitis have now been defined that are differentially aggressive and that might, therefore, require specifically tailored therapeutic approaches to slow the progression of disease. In addition, the outcomes are also different in that the more aggressive form (termed 'CD20Hi') is associated with extensive β-cell loss and an early age of disease onset (<7 years), while the less aggressive profile (known as 'CD20Lo') is associated with later onset (>13 years) and the retention of a higher proportion of residual β cells. In the present review, these new findings are explained and their implications evaluated in terms of future therapies.
Keyphrases
- induced apoptosis
- type diabetes
- cell cycle arrest
- oxidative stress
- endoplasmic reticulum stress
- glycemic control
- newly diagnosed
- end stage renal disease
- signaling pathway
- ejection fraction
- single cell
- cell death
- young adults
- chronic kidney disease
- skeletal muscle
- prognostic factors
- patient reported outcomes
- nk cells