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04 August 2023 | Story The Conversation | Photo supplied
Claudia Ntsapi
Dr Claudia Ntsapi, Basic Medical Sciences Lecturer at the University of the Free State.

Opinion article by , Basic Medical Sciences Lecturer

As the world population has grown older, Alzheimer’s disease has become increasingly common. Alzheimer’s disease is the most prevalent form of dementia. Dementia is a term used to describe a range of symptoms linked to the decline in brain function with age. Symptoms include memory loss, communication difficulties, problem-solving struggles, and personality or behavioural changes.

Alzheimer’s disease is an increasingly urgent global issue. The World Health Organization predicts that the number of people with the condition will triple by 2050.

Despite this growing problem, Alzheimer’s disease remains a relatively understudied condition. This is particularly the case in sub-Saharan countries such as South Africa. One major challenge is that Alzheimer’s is a complex condition with no known cure. However, researchers have identified several key risk factors associated with the disease. These include age, genetics, lifestyle factors and underlying medical conditions.

In recent years, one of the most promising areas of research on age-related diseases, such as Alzheimer’s disease, has been the accumulation of harmful proteins in the brain. Specifically amyloid-ß. Amyloid-ß has remained a prominent area of research in Alzheimer’s disease as its build-up is a classic feature in the development of the condition. Understanding its involvement in the disease process is crucial for advancing our knowledge and developing effective strategies to diagnose, prevent and treat the disease.

The accumulation of amyloid-ß can lead to the formation of plaques. These plaques can interfere with communication between brain cells. This ultimately contributes to cognitive decline and other symptoms associated with Alzheimer’s disease.

Amyloid-ß is a large membrane protein that is essential in neural growth and repair. But its corrupted form in later life can destroy nerve cells. This triggers the loss of thought and memory that is associated with Alzheimer’s.

We therefore sought to find out if dietary interventions, particularly intermittent fasting, would counteract the accumulation of amyloid-ß in the brain and potentially safeguard against age-related brain cell death.

In a paper published in 2021, my colleague and I showed that in experiments conducted in mice we found that intermittent fasting counteracted amyloid-ß accumulation in the brain. These findings were further confirmed in a paper published in May of 2022.

Our findings are an important contribution to the search for the potential role of dietary interventions and are consistent with previous studies supporting the idea that intermittent fasting may help counteract amyloid-ß accumulation in the brain and protect against age-related brain cell death. To my knowledge, the most recent study using a variation of intermittent fasting, was published in September 2022. The clinical branch of this study remains ongoing.

Research into the causes of Alzheimer’s has gathered pace in recent years with new ground being broken on a regular basis as scientists search for treatments.

Our study’s findings suggest that intermittent fasting may be an effective way to increase the efficiency of autophagy – the process that breaks down and recycles damaged or unnecessary cellular components, such as organelles and toxic proteins. This process can therefore reduce the risk of amyloid-ß build-up and associated brain cell death.

These findings are particularly significant because they shed light on the relationship between autophagy and the death of brain cells with age, and the potential therapeutic benefits of interventions that target this process.

How it works

Intermittent fasting is a dietary approach that involves regulating food intake by alternating periods of fasting and eating. This dietary regimen comprises periods of restricted food consumption, followed by periods of normal eating.

There are different types of intermittent fasting. One is time-restricted eating, where food is consumed within a specific time window each day. Alternate-day fasting is where food is restricted every other day.

Intermittent fasting has been shown to have various health benefits. Some of the benefits relate to the promotion of brain health.

Our study’s findings suggest that intermittent fasting may be an effective way to increase the efficiency of autophagy, an essential process for removing toxic or misfolded proteins that can build up in cells.

Sometimes autophagy doesn’t work properly to remove harmful proteins or other cellular components from cells. This has been strongly implicated in the development and progression of various age-related diseases, and is a target of research for potential therapies.

What we did

In our study we investigated the effects of intermittent fasting on brain cells in mice, and brain cells isolated from mice with increased amyloid-ß toxicity. Mice cells are frequently used as a model for human cells in scientific research. This is because of the significant genetic similarity between mice and humans. This use of animal models allows researchers to gain valuable insights and test hypotheses. It is generally considered ethically preferable before potentially conducting human studies.

We found that 24 to 48 hours of intermittent fasting by mice provided protection against cell death in specific regions of their brain. We noted increased autophagy levels in cells of fasted mice. Even in the presence of a high amyloid-ß protein load in brain cells, intermittent fasting maintained autophagy activity. And the process remained effective over a 21-day treatment intervention period.

By increasing the efficiency of autophagy, it is possible to maintain the removal of harmful proteins in cells, even as we age.

The findings of this study suggest that interventions such as intermittent fasting could potentially protect against the development of age-related diseases. This has important implications for public health.

Intermittent fasting is a relatively simple dietary intervention: it’s easy to do. It has the potential to be widely adopted as a preventive measure against the onset of age-related diseases. These findings also provide a basis for future research into the mechanisms by which intermittent fasting protects against brain cell death, exploring the potential for additional therapeutic interventions that target autophagy, and examining the effects of different fasting regimens on brain health.The Conversation

This article is republished from The Conversation under a Creative Commons license. Read the original article.

News Archive

Heart diseases a time bomb in Africa, says UFS expert
2010-05-17

 Prof. Francis Smit

There are a lot of cardiac problems in Africa. Sub-Saharan Africa is home to the largest population of rheumatic heart disease patients in the world and therefore hosts the largest rheumatic heart valve population in the world. They are more than one million, compared to 33 000 in the whole of the industrialised world, says Prof. Francis Smit, Head of the Department of Cardiothoracic Surgery at the Faculty of Health Sciences at the University of the Free State (UFS).

He delivered an inaugural lecture on the topic Cardiothoracic Surgery: Complex simplicity, or simple complexity?

“We are also sitting on a time bomb of ischemic heart disease with the WHO (World Health Organisation) estimating that CAD (coronary artery disease) will become the number-one killer in our region by 2020. HIV/Aids is expected to go down to number 7.”

Very little is done about it. There is neither a clear nor coordinated programme to address this expected epidemic and CAD is regarded as an expensive disease, confined to Caucasians in the industrialised world. “We are ignoring alarming statistics about incidences of adult obesity, diabetes and endemic hypertension in our black population and a rising incidence of coronary artery interventions and incidents in our indigenous population,” Prof. Smit says.

Outside South Africa – with 44 units – very few units (about seven) perform low volumes of basic cardiac surgery. The South African units at all academic institutions are under severe threat and about 70% of cardiac procedures are performed in the private sector.

He says the main challenge in Africa has become sustainability, which needs to be addressed through education. Cardiothoracic surgery must become part of everyday surgery in Africa through alternative education programmes. That will make this specialty relevant at all levels of healthcare and it must be involved in resource allocation to medicine in general and cardiothoracic surgery specifically.

The African surgeon should make the maximum impact at the lowest possible cost to as many people in a society as possible. “Our training in fields like intensive care and insight into pulmonology, gastroenterology and cardiology give us the possibility of expanding our roles in African medicine. We must also remember that we are trained physicians as well.

“Should people die or suffer tremendously while we can train a group of surgical specialists or retraining general surgeons to expand our impact on cardiothoracic disease in Africa using available technology maybe more creatively? We have made great progress in establishing an African School for Cardiothoracic Surgery.”

Prof. Smit also highlighted the role of the annual Hannes Meyer National Registrar Symposium that culminated in having an eight-strong international panel sponsored by the ICC of EACTS to present a scientific course as well as advanced surgical techniques in conjunction with the Hannes Meyer Symposium in 2010.

Prof. Smit says South Africa is fast becoming the driving force in cardiothoracic surgery in Africa. South Africa is the only country that has the knowledge, technology and skills base to act as the springboard for the development of cardiothoracic surgery in Africa.

South Africa, however, is experiencing its own problems. Mortality has doubled in the years from 1997 to 2005 and half the population in the Free State dies between 40 to 44 years of age.

“If we do not need health professionals to determine the quality and quantity of service delivery to the population and do not want to involve them in this process, we can get rid of them, but then the political leaders making that decision must accept responsibility for the clinical outcomes and life expectancies of their fellow citizens.

“We surely cannot expect to impose the same medical legal principles on professionals working in unsafe hospitals and who have complained and made authorities aware of these conditions than upon those working in functional institutions. Either fixes the institutions or indemnifies medical personnel working in these conditions and defends the decision publicly.

“Why do I have to choose the three out of four patients that cannot have a lifesaving operation and will have to die on their own while the system pretends to deliver treatment to all?”

Prof. Smit says developing a service package with guidelines in the public domain will go a long way towards addressing this issue. It is also about time that we have to admit that things are simply not the same. Standards are deteriorating and training outcomes are or will be affected.

The people who make decisions that affect healthcare service delivery and outcomes, the quality of training platforms and research, in a word, the future of South African medicine, firstly need rules and boundaries. He also suggested that maybe the government should develop health policy in the public domain and then outsource healthcare delivery to people who can actually deliver including thousands of experts employed but ignored by the State at present.

“It is time that we all have to accept our responsibilities at all levels… and act decisively on matters that will determine the quality and quantity of medical care for this and future generations in South Africa and Africa. Time is running out,” Prof. Smit says.
 

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