Diabetes Mellitus: A Brief Overview

For the body to be able to carry out any of its normal functions, the cells within it need energy. Much of the body’s energy is supplied by the sugar, glucose, which is acquired from the diet.

When in the blood we may refer to it as blood-sugar, as it is carried around the body in the blood stream. Cells use the glucose circulating in the bloodstream as a source of energy.

The absorption of glucose is regulated via a hormone called insulin.

In normal operation, the insulin is made in the pancreas and released when blood-sugar receptors signal that our levels are raised. The insulin forces the cells in the body to absorb more glucose.

The absorption of glucose into the cells lowers the blood-sugar level and keeps it at a steady balance, also known as glucose homeostasis. In short, diabetes interrupts the normal functions associated with this process.

If our blood sugar levels are low, the secretion of insulin is inhibited and instead glucagon is released by pancreatic alpha cells. Glucagon is a hormone which acts in the liver to increase our blood sugar levels.

Both type 1 and 2 diabetes are associated with higher than the usual blood sugar levels but their causes and symptoms differ.

The Difference Between Type 1 and Type 2 Diabetes

Type 1 diabetes:

  • The body completely lacks insulin.
  • Normally, this is due to the immune system attacking the production site of insulin until the body is no longer able to produce it. This creates the need for insulin dependency by way of injection.

Type 2 diabetes:

  • The body has a low level of insulin or cannot use the insulin in the correct way. This is termed insulin resistance.

Type 1 Diabetes

Type 1 diabetes is an autoimmune disease and is classically identified in childhood but can develop at any time, especially if there is a genetic marker present. Type 1 accounts for around 10% of all cases of diabetes but its worldwide prevalence is growing.

Type 1 is characterised by the absence of insulin in the body. Pancreatic ᵝ (beta) cells usually produce insulin. The destruction and elimination of these cells in type 1 diabetes ultimately leads to no insulin being produced at all.

How does this happen? The body’s defence system works by first identifying what the invader looks like, it then uses what are essentially mirror cells to transform themselves and look exactly like the invader (viruses and infections).

These mirror cells then, in effect, travel around the body shouting to the killer cells of the immune system. In effect, these cells are flagged to be destroyed by the killer cells. This is of course not precisely what takes place, but for a simplified explanation it’s easy to imagine.

When this system works right, it’s great and can save us from disease, but if it goes wrong, then rather than cure disease it can cause it.

This is what happens in the case of type 1A diabetes. In this form, the beta cells are wrongly identified as an invader in a move known as a cell-mediated autoimmune attack.

During beta cell destruction, an inflammatory response is initiated and progressive destruction leads to a loss of insulin-secretory reserves as special proteins known as antibodies identify and destroy the mistakenly targeted cells.

Because of the death of their beta cells, type 1 diabetics have to compensate for this loss by injecting themselves with insulin.

Type 2 diabetes

The pathogenesis of type 2 diabetes is complicated, particularly as patients can present with differing degrees of insulin resistance. The disease can be due to a combination of genetic and environmental factors and is the most common type in the UK. The disease is characterised by either the body being unable to make enough insulin, or the body unable to effectively use the insulin which is produced.

Type 2 diabetes doesn’t attack the beta cells and so is not an autoimmune disease. The ineffectiveness of the insulin (insulin resistance) is compensated by the body producing more of the hormone but it can’t always produce enough. As the pancreatic beta cells are put under increasing pressure, the increased production of insulin can destroy them, stopping the production of insulin. This is beta cell failure, over a prolonged period of time, it is possible to find yourself in a situation similar to that of a type 1 diabetic.

The changes in insulin secretion cause hyperglycaemia (high blood sugar) and eventually the need for insulin dependence. Obesity is a strong risk factor for becoming insulin resistant alongside a lack of physical activity. Insulin action can be modulated by fat and muscle cells, due to the origination of hormones, cytokines and metabolic fuels within these cells.

Common Differences Between Type 1 and 2 Diabetes

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Having always been intrigued by how body’s work, both in their day to day functions and also when things go wrong, Leanne is pursuing her passion for health. By combining her undergraduate degree in Biomedical Science and a Masters in Science communication with her love for writing, she is passing on her knowledge to Health Hub readers. Leanne strongly believes that science and health are something that should be talked about more and she hopes her articles will enable such conversations.