The Skin Microbiome and Malaria: Difference between revisions

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<br> The skin is the largest organ in the body, and constitutes over 1.8 square meters of surface area in which microbes can form habitats <ref>[http://www.ncbi.nlm.nih.gov/pubmed/21407241 Grice, E & Segre, J (2016). "The skin microbiome."]</ref>. Bacteria, fungi, viruses, and microbial eukaryotes are all common inhabitants of this interface with the outside environment. Similar to any ecosystem, the skin microbiome contains symbiotic organisms of many different natures – many are harmless, others are beneficial to human health, and some are pathogenic and facilitate disease. <ref>[http://www.ncbi.nlm.nih.gov/pubmed/21407241 Grice, E & Segre, J (2016). "The skin microbiome."]</ref> <br>
<br> The skin is the largest organ in the body, and constitutes over 1.8 square meters of surface area in which microbes can form habitats <ref>[http://www.ncbi.nlm.nih.gov/pubmed/21407241 Grice, E & Segre, J (2016). "The skin microbiome."]</ref>. Bacteria, fungi, viruses, and microbial eukaryotes are all common inhabitants of this interface with the outside environment. Similar to any ecosystem, the skin microbiome contains symbiotic organisms of many different natures – many are harmless, others are beneficial to human health, and some are pathogenic and facilitate disease. <ref>[http://www.ncbi.nlm.nih.gov/pubmed/21407241 Grice, E & Segre, J (2016). "The skin microbiome."]</ref> <br>


<br> The overall environment of the human skin is typically cool in temperature and slightly acidic <ref>[http://www.ncbi.nlm.nih.gov/pubmed/21407241 Grice, E & Segre, J (2016). "The skin microbiome."]</ref>. However, taking into account the many regions of folds, invaginations, and hair, specific habitats can vary widely between regions of the body. This is especially true in and around the sweat glands. For example, sebaceous glands promote growth of facultative anaerobes such as Propionibacterium acnes due to their oxygen-poor environment <ref>[http://www.ncbi.nlm.nih.gov/pubmed/21407241 Grice, E & Segre, J (2016). "The skin microbiome."]</ref>. <br>
<br> The overall environment of the human skin is typically cool in temperature and slightly acidic <ref>[http://www.ncbi.nlm.nih.gov/pubmed/21407241 Grice, E & Segre, J (2016). "The skin microbiome."]</ref>. However, taking into account the many regions of folds, invaginations, and hair, specific habitats can vary widely between regions of the body. This is especially true in and around the sweat glands. For example, sebaceous glands promote growth of facultative anaerobes such as <i>Propionibacterium acnes</i> due to their oxygen-poor environment <ref>[http://www.ncbi.nlm.nih.gov/pubmed/21407241 Grice, E & Segre, J (2016). "The skin microbiome."]</ref>. <br>


==Section 2==
==Section 2==

Revision as of 14:17, 25 April 2016

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Introduction

Symptoms of Malaria infection. Photo from Mikael Haggstrom, Wikiversity Journal of Medicine. [doi: 10.15347/wjm/2014.008].


By Aldis Petriceks


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Malaria is a deadly disease caused by the protozoan Plasmodium, and spread through mosquito bites. [1] The most common ailments are fever, chills, and flu-like symptoms which typically begin within a month of infection [2]. Other symptoms include headache, vomiting, jaundice, shivering, and joint pain. The most notable sign of a malaria infection is paroxysm – which includes cycles of cold and shivering followed by fever and sweating. While immediate treatment can typically facilitate a full recovery, those without access to medical care can fall fatal to the disease within days. There are currently 3.4 billion people living in high-risk areas, which led to 500,000 deaths from malaria in 2013 alone (CDC). The majority of these deaths occur in underdeveloped tropical and sub-tropical countries, which in turn incur the bulk of the $12 billion USD yearly cost associated with fighting the disease.


Malaria progresses in two stages. In the first stage, the Plasmodium parasite (in sporozoite form) is injected into the host bloodstream by a mosquito vector, where sporozoites then travel to the liver [3]. Once inside liver cells, these sporozoites spend the next 5-16 days dividing at rapid rates into haploid merozoites. Merozoites build-up in the liver cells causes cell rupture, which then releases the merozoites back into the bloodstream. This begins the second stage of the disease, where the parasites infect red blood cells, undergo many cycles of asexual reproduction, and cause their new host cells to rupture as well, further propagating merozoite production. Infection and rupture cycles repeat every 1-3 days, which manifest themselves in the shivering and fever cycles mentioned above [4].


While the most commonly-known risk factors for malaria are geographic location, socioeconomic level, and lack of proper medical care, research suggests that an individual’s skin microbiome can heavily influence attractiveness to malaria-carrying mosquitoes [5]. Odorous chemical cues are key to mosquito orientation and landing during host location, and skin flora play a large role in the process by affecting human odor production. Specifically, these microbes metabolize lipids and other compounds in naturally odorless sweat, producing volatile odor compounds attractive to anthropophilic mosquitoes [6]. Skin bacteria vary widely in their metabolic pathways, and thus have differing volatile odor productions. As such, composition of skin flora can have large effects on host location in such mosquitoes.

The Skin As An Ecosystem


The skin is the largest organ in the body, and constitutes over 1.8 square meters of surface area in which microbes can form habitats [7]. Bacteria, fungi, viruses, and microbial eukaryotes are all common inhabitants of this interface with the outside environment. Similar to any ecosystem, the skin microbiome contains symbiotic organisms of many different natures – many are harmless, others are beneficial to human health, and some are pathogenic and facilitate disease. [8]


The overall environment of the human skin is typically cool in temperature and slightly acidic [9]. However, taking into account the many regions of folds, invaginations, and hair, specific habitats can vary widely between regions of the body. This is especially true in and around the sweat glands. For example, sebaceous glands promote growth of facultative anaerobes such as Propionibacterium acnes due to their oxygen-poor environment [10].

Section 2

Include some current research, with at least one figure showing data.

Mosquito-Attracting Skin Bacteria

Prevalent skin microbes and their relative attractiveness to Malaria-carrying mosquitos. Vellhurst et al (2011), PLOS ONE. [1].



Section 4

Conclusion

References

  1. CDC, (2016). "Malaria"
  2. Caraballo, H (2014). "Malaria, Dengue, and West Nile Virus"
  3. NIAID (2016). "Malaria"
  4. NIAID (2016). "Malaria"
  5. Carde, H & Gibson, G (2016). "Host finding by female mosquitoes: mechanisms of orientation to host odours and other cues."
  6. Olanga et al (2016). "Attraction of Anopheles gambiae to odour baits augmented with heat and moisture."
  7. Grice, E & Segre, J (2016). "The skin microbiome."
  8. Grice, E & Segre, J (2016). "The skin microbiome."
  9. Grice, E & Segre, J (2016). "The skin microbiome."
  10. Grice, E & Segre, J (2016). "The skin microbiome."



Authored for BIOL 238 Microbiology, taught by Joan Slonczewski, 2016, Kenyon College.

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