Showing posts with label humans. Show all posts
Showing posts with label humans. Show all posts

Thursday, 15 August 2013

Origin of MRSA strain in humans discovered in cattle

Main Category: Immune System / Vaccines
Also Included In: Water - Air Quality / Agriculture
Article Date: 14 Aug 2013 - 1:00 PDT Current ratings for:
Origin of MRSA strain in humans discovered in cattle
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A strain of bacteria that causes skin and soft tissue infections in humans originally came from cattle, according to a study to be published in mBio®, the online open-access journal of the American Society for Microbiology. The researchers who conducted the genetic analysis of strains of Staphylococcus aureus known as CC97 say these strains developed resistance to methicillin after they crossed over into humans around forty years ago. Today, methicillin-resistant S. aureus (MRSA) strain CC97 is an emerging human pathogen in Europe, North and South America, Africa, and Asia. The findings highlight the potential for cows to serve as a reservoir for bacteria with the capacity for pandemic spread in humans.

The researchers sequenced the genomes of 43 different CC97 isolates from humans, cattle, and other animals, and plotted their genetic relationships in a phylogenetic tree. Corresponding author Ross Fitzgerald of the Roslin Institute and the University of Edinburgh in Scotland says strains of CC97 found in cows appear to be the ancestors of CC97 strains from humans.

"Bovine strains seemed to occupy deeper parts of the phylogenetic tree - they were closer to the root than the human strains. This led us to conclude that the strains infecting humans originated in cows and that they had evolved from bovine to human host jumps," says Fitzgerald.

Although the CC97 strains from animals were quite genetically diverse, the human isolates cluster together in two tight, distinct "clades", or relatedness groups, indicating that S. aureus CC97 in cattle crossed over into humans on two separate occasions. Using mutation rates as a molecular clock, the authors determined that the ancestor of clade A jumped from a bovine host to humans between 1894 and 1977 and clade B made the jump between 1938 and 1966.

After they made the jump, the human CC97 strains acquired some new capabilities, says Fitzgerald, thanks to genes encoded on portable pieces of DNA called mobile genetic elements.

"It seems like these elements, such as pathogenicity islands, phages, and plasmids, are important in order for the bacterium to adapt to different host species," says Fitzgerald. "The reverse is true as well: the bovine strains have their own mobile genetic elements."

Perhaps the most problematic new capability the human strains acquired is the ability to resist methicillin, an important antibiotic for fighting staphylococcal infections. Only human strains of CC97 were able to resist the drug, which indicates that the bacteria acquired resistance after they crossed over into humans, presumably through exposure to antibiotics prescribed for treating human infections.

This sequence of events contrasts with the case of a S. aureus strain from pigs, Fitzgerald points out, since a study in 2012 revealed that MRSA ST398 strains evolved the ability to resist methicillin before they crossed over into humans.* Any number of factors could create these differences, making pigs - but not cattle - a source of a drug-resistant bacterium. At this point, though, there isn't enough information to say whether differences in the S. aureus strains, differences between pigs and cattle, or differences between swine and dairy farming practices might be responsible.

Moving forward, Fitzgerald says he and his colleagues plan to widen the investigation.

"We have a relatively small sample size, and the findings are robust, but we want to extend the study now to include a greater number of clones to get a bigger picture of what's going on across the S. aureus species," says Fitzgerald.

A wider variety of S. aureus strains, Fitzgerald says, from a wider variety of locations and hosts and a wider range of time, will allow them to better pinpoint the timing and circumstances of the host jump events. Understanding how and when MRSA has crossed over from other species in the past can help us to put the brakes on these crossovers in the future and hopefully prevent the birth of the next pandemic S. aureus strain.

Article adapted by Medical News Today from original press release. Click 'references' tab above for source.
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Predicting which viral species are most likely to jump from animals to humans

Main Category: Flu / Cold / SARS
Also Included In: Infectious Diseases / Bacteria / Viruses;  Respiratory / Asthma
Article Date: 14 Aug 2013 - 1:00 PDT Current ratings for:
Predicting which viral species are most likely to jump from animals to humans
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Outbreaks such as the severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome coronavirus (MERS) have afflicted people around the world, yet many people think these trends are on the decline.

Quite the opposite is true.

The efforts to combat this epidemic are being spearheaded by a team of Lawrence Livermore National Laboratory (LLNL) scientists. Led by Monica Borucki of LLNL's Biosciences and Biotechnology Division, the Lab researchers have made promising new discoveries that provide insight into the emergence of inter-species transmittable viruses.

They discovered that the genetic diversity of a viral population within a host animal could allow a virus to adapt to certain conditions, which could help it reach a human host. This discovery advances the scientific understanding of how new viruses produced from animal reservoirs can infect people. An animal reservoir is an animal species that harbors an infectious agent, which then goes on to potentially infect humans or other species. Borucki's team is investigating viruses related to SARS and MERS, but not the actual viruses themselves.

"The team's findings are the first steps in developing methods for predicting which viral species are most likely to jump from animals to humans and potentially cause outbreaks of diseases," Borucki said.

Borucki's LLNL multidisciplinary research team includes Jonathan Allen, Tom Slezak, Clinton Torres and Adam Zemla from the Computation Directorate; Haiyin Chen from the Engineering Directorate; and Pam Hullinger, Gilda Vanier and Shalini Mabery from the Physical and Life Sciences Directorate.

Coronaviruses are one of the groups of viruses that most commonly jump to new host species as evidenced by SARS and MERS, according to Borucki. These viruses appear to have jumped from animals to humans and are capable of causing severe diseases in humans.

"Our discoveries indicate that the next generation of genetic sequencing technology, combined with advance computational analysis, can be used to characterize the dynamics of certain viral populations," she said.

The team's work on coronaviruses received funding from LLNL's Laboratory Directed Research and Development (LDRD) program and the Defense Threat Reduction Agency (DTRA).

In June, a research paper published in the Journal of General Virology by other scientists cited the Borucki team's findings as pioneering, and it recommended their methodology for studying viral evolution.

Borucki said her team's research findings eventually could be used to influence how vaccines and antivirals are designed and tested.

"Deep Illumina sequencing (a type of genetic sequencing that involves sequencing reads in parallel) is already being used extensively to understand HIV and hepatitis C resistance to antivirals," she said. "We plan to follow up our findings by examining how animal host traits such as nutritional status (being malnourished or obese) influence how viruses evolve."

This latest discovery is part of a string of achievements for Borucki's team.

In 2010, they secured a three-year, $1.4 million contract from DTRA to fund a research project to study how to better determine the origins of a virus.

Article adapted by Medical News Today from original press release. Click 'references' tab above for source.
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DOE/Lawrence Livermore National Laboratory. "Predicting which viral species are most likely to jump from animals to humans." Medical News Today. MediLexicon, Intl., 14 Aug. 2013. Web.
14 Aug. 2013. APA

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Tuesday, 30 July 2013

Researchers uncover evolutionary pathway of monogamy in humans

Main Category: Psychology / Psychiatry
Article Date: 30 Jul 2013 - 1:00 PDT Current ratings for:
Researchers uncover evolutionary pathway of monogamy in humans
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The threat of infants being killed by unrelated males is the key driver of monogamy in humans and other primates.

The study by academics from UCL, University of Manchester, University of Oxford and University of Auckland, is the first to reveal this evolutionary pathway for the emergence of pair living.

The team also found that following the emergence of monogamy males are more likely to care for their offspring. Where fathers care for young, not only can they protect infants from other males, but they can also share the burden of childcare.

Dr Kit Opie (UCL Anthropology), lead author of the study published in the journal PNAS, said: "This is the first time that the theories for the evolution of monogamy have been systematically tested, conclusively showing that infanticide is the driver of monogamy. This brings to a close the long running debate about the origin of monogamy in primates."

Infants are most vulnerable when they are fully dependent on their mother because females delay further conception while nursing slowly developing young. This leads to the threat from unrelated males, who can bring the next conception forward by killing the infant. Sharing the costs of raising young both shortens the period of infant dependency and can allow females to reproduce more quickly.

An additional benefit of sharing the burden of care is that females can then have more costly young. The considerable cognitive requirements of living in complex societies has resulted in many primate species having large, and costly, brains.

Growing a big brain is expensive and requires that offspring mature slowly. Caring fathers can help alleviate the burden of looking after young with long childhoods and may explain how large brains could evolve in humans.

Humans, uniquely among primates, have both very long childhoods and mothers that can reproduce quickly relative to other great apes. Until now, a number of hypotheses have been proposed to explain the evolution of monogamy among mammals. These include:

Paternal care, when the cost of raising offspring is high Guarding solitary females from rival males Infanticide risk, where males can provide protection against rival males

To uncover the evolutionary pathway the team gathered data across 230 primate species. These were then plotted on a family tree of the relationships between those species. Bayesian methods were used to re-run evolution millions of times across the family tree to discover whether different behaviours evolved together across time, and if so, which behaviour evolved first.

This then allowed the team to determine the timing of trait evolution and show that male infanticide is the cause of the switch from a multi-male mating system to monogamy in primates, while bi-parental care and solitary ranging by females are a result of monogamy, not the cause.

Dr Susanne Shultz, from the University of Manchester, said: "What makes this study so exciting is that it allows us to peer back into our evolutionary past to understand the factors that were important in making us human. Once fathers decide to stick around and care for young, mothers can then change their reproductive decisions and have more, brainy offspring."

Article adapted by Medical News Today from original press release. Click 'references' tab above for source.
Visit our psychology / psychiatry section for the latest news on this subject.

Christopher Opiea, Quentin D. Atkinson, Robin I. M. Dunbar, Susanne Shultz "Male infanticide leads to social monogamy in primates", PNAS July 29, 2013, doi: 10.1073/pnas.1307903110

University College London

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