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12 June 2023 | Story André Damons | Photo Sonia Small
Prof Carolina Pohl-Albertyn
Prof Carlien Pohl-Albertyn, National Research Forum (NRF) SARChI Research Chair in Pathogenic Yeasts, leads the research team that is working on various research projects relating to fungi casing yeast.

Fungal infections affect more than one billion people each year, of which more than 150 million cases are severe and life-threatening, causing 1.7 million deaths a year. In South Africa it is estimated that diseases caused by fungal infections total more than three million cases a year. These figures are especially shocking given that prior to 1980, fungal infections were not a major health problem. The WHO has recently published a list of priority pathogens in which fungi are classified in critical, high- and medium- priority groups. Candida species are found in all three levels and Cryptococcus species in critical and medium groups,” says Prof Pohl-Albertyn.

It is for these reasons that researchers in the Department of Microbiology and Biochemistry at the University of the Free State (UFS) are working on various research projects investigating new treatment options beyond the established antifungals. Prof Carlien Pohl-Albertyn, National Research Forum (NRF) SARChI Research Chair in Pathogenic Yeasts, leads the team that is working on various research projects relating to fungi casing yeast.

Multidrug-resistant yeast

One of the yeasts being researched is Candida auris – a multidrug-resistant yeast that can cause severe infections in humans, particularly in people who are hospitalised or have weakened immune systems. C. auris was first identified in 2009 in Japan and has since been reported in over 49 countries.

According to Prof Pohl-Albertyn, C. auris is of concern because it is often resistant to multiple antifungal drugs, making it difficult to treat. In addition, it can survive on surfaces in healthcare settings, which can contribute to its spread between patients, causing outbreaks in hospitals. “Due to its multidrug resistance and potential for transmission, C. auris has been designated by the Centers for Disease Control and Prevention (CDC) as a serious global health threat and listed as the second most critical fungal pathogen in the World Health Organisation (WHO) fungal critical priority group.

C. auris possesses virulence factors such as increased thermotolerance, high salinity tolerance, biofilm formation, and extra cellular enzyme secretion, which are the major contributing factors to its multidrug resistance profile and virulence. Even though C. auris has a variety of virulence factors that it employs against its human host to develop an infection, its virulence mechanisms remain unclear,” says Prof Pohl-Albertyn.

Therefore, several research projects investigate this pathogenic yeast. All of them started with the development of CRISP-Cas9 gene editing tools for this yeast, in order to be able to delete specific genes in this yeast to study their roles. These tools are also constantly being improved for greater efficiency by students under the supervision of Prof Koos Albertyn. Two current projects deal with the function of specific secreted enzymes in the virulence of C. auris.

Environmental yeast

Another yeast being researched, under the supervision of Prof Olihile Sebolai, is Cryptococcus neoformans, an environmental yeast found in trees and soil contaminated with bird droppings. Moreover, it can be airborne and when inhaled it lodges in the lungs (in alveoli) and can cause primary lung infection, explains Prof Pohl-Albertyn.

Cryptococcus neoformans causes AIDS-defining illnesses in people living with HIV/AIDS. To the point, it was not surprising when the WHO declared it as the first critical fungal pathogen of concern. Dissemination to other organs has been reported where it crosses the epithelium barrier by secreting proteases (a class of enzymes that break down proteins in the host) that compromise the tight junctions between the epithelial cells.

The current projects investigate the interaction between the proteases secreted by C. neoformans and co-infecting viruses, such as SARS-CoV-2 and influenza. The SARS-CoV-2 virus is activated by proteases in the host and proteases also help the influenza virus to enter and infect the host cells. Since the host proteases are similar to those secreted by C. neoformans, these projects are focused on determining if the yeast proteases can also help the viruses to cause infection. This project is also extended to study Candida albicans proteases as this is also a common co-infecting yeast in COVID-19 patients (for more detail on C. albicans).

Another project looks at the application of plants as sources for novel drugs against C. neoformans. This is important since 75-80% of African and Asian populations still rely on traditional or complementary/alternative medicines for their primary health-care needs. Coupled to this, modern medicines have become increasingly expensive and thus inaccessible to many in developing countries. Moreover, there is a shift to more “organic” and “vegan” lifestyles as well as the use of herbal medicines to prevent or manage the development of certain diseases.

Yeast contaminated water

“Considering the severity of invasive fungal infection, it is important to study the dissemination and proliferation of various pathogenic or potentially pathogenic fungal species in our surrounding environments. It is crucial to identify major vectors that aid in the spread of pathogenic yeast to prevent infections in susceptible individuals, which mainly include immunocompromised or immunosuppressed individuals.

“Candida, Cryptococcus and Rhodotorula species are commonly found in a variety of water sources with which humans are in frequent contact through daily activities like bathing, washing of clothes and cooking. This recent information further warrants the investigation into the possibility that fungal infections may occur through contact with yeast contaminated water,” concludes Prof Pohl-Albertyn.

She says it is thus important to investigate the presence and antifungal susceptibility of yeast found in water as well as to identify ways to monitor potential fungal outbreaks, possibly through wastewater surveillance. The research aims to identify potentially pathogenic yeast species as well as to quantify levels of azole, specifically fluconazole, in wastewater. In addition, the fluconazole susceptibility of these isolates will be assessed in an attempt to link azole pollution of the environment to antifungal drug resistance development.

News Archive

Power shortage: Measures to be implemented immediately
2008-01-31

1. In order to avoid the further implementation of power sharing, electricity companies countrywide are requiring, in addition to measures announced for domestic consumers, that major power consumers save a certain percentage of power.

2. Die UFS is one of the 100 largest clients of Centlec, the local electricity distribution company. During a meeting last Thursday evening with the 100 largest clients, it was indicated that the UFS had to deliver a saving of 10%. The details are as follows:

  • Provision is made to a certain extent for an increase in electricity consumption. The calculation is done as follows: maximum consumption for 2007+6%-10%.
  • This entails a saving during peak times, as well as a saving regarding the total number of units consumed.
  • The saving is calculated on a monthly basis.
  • Saving measures must be implemented immediately (from 7 March). If electricity-saving goals are not attained, power sharing will be resumed from 10 March.

3. The UFS has been controlling its peak demand by means of an energy control system for many years. The geysers of residences and certain central air-conditioning systems were linked to the control system in order to shift energy consumption to non-peak times.

4. In order to attain the goal of 10%, it is necessary to implement further energy control systems and additional measures – which requires time and money. Attention will have to be given, inter alia, to the following:

  • The 1000+ portable air-conditioning units on the campus (huge power guzzlers) must be connected to energy control appliances and systems.
  • All the filament bulbs must be replaced.

7. The UFS will be conducting high-level talks with Centlec later this week with a view to:

  • conveying the unique needs of the UFS in detail;
  • stating the impact of building and refurbishing projects that are currently in the implementation and planning phases;
  • requesting understanding for the fact that the UFS does not have the capacity to immediately deliver the 10% saving.
     

It is evident from discussions thus far that Centlec is sympathetic and wants to help, but also that immediate action and co-operation are expected from the UFS. During the meeting, the UFS must also report back on steps already taken (since 7 March) in this regard.

8. The installation of the emergency power units for the large lecture-hall complexes and a few other critical areas, which has already been approved, is continuing. About R3m is being spent on this. Additional emergency power needs reported to Physical Resources via line managers are currently being investigated with a view to obtaining a cost estimate and subsequently determining priorities in consultation with line managers.

It is recommended that:

a) All line managers, staff members and students be requested to give their full co-operation with regard to saving electricity in every possible way, and that current operational arrangements be amended if possible with a view to promoting power saving. 

Staff, students and other users of campus facilities be requested to see to it that lights and air conditioning (individual units) in unused areas are switched off.

b) The following measures drawn up in co-operation with electrical engineers come into effect immediately:

Arrangements to be made by Physical Resources staff:
(Additional capacity to be able to complete everything within a reasonable period of time will have to be found and funded. This aspect will be taken up with the line managers concerned):

  • The geysers of all office buildings will be switched off at the distribution board. Staff are requested to use a kettle for washing dishes, and are warned not to switch appliances on again themselves.
  • In all office buildings where 12V and 15W downlighters and uplighters remain switched on for decorative purposes and do not serve as primary illumination, the light switches will be disconnected.
  • Lighting in cloakrooms will be checked, and illumination levels will be reduced if possible.
  • All light armatures must be replaced by CFL types.
  • All lights on the grounds will be checked to ensure minimum power consumption.
  • The upper limit of all central cooling systems currently regulated via the energy control system must be set to 24 degrees.

Arrangements to be made by Kovsie Sport:

  • Sport activities requiring sports field illumination must be scheduled after 20:00 in the evening (the lights may not be on between 18:00 and 20:00.)
  • Sports field illumination must be managed so that such lights are not switched on unnecessarily.
     

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