Sunday, 14 September 2014
cascade SMASH
As it was coming to the middle of summer I really wanted to make a summer ale; one similar to American pale ales, which are bitterly hopped with hops like cascade (the floral grapefruit-like ones), light textured and bodied but a bit sweet. For this I followed a standard pale malt + sweet crystal malt + lots of hops at early and late timepoints. No dry hopping was used. A standard ale yeast was used. This ale turned out pretty well and tasted like the usual Brewdog-kind of pale ale. Not the most creative but tastey.
Monday, 4 August 2014
towards a high-resolution understanding of hepatitis C virus
HCV virions |
These questions are no more interesting than for HCV, an important human pathogen that has chronically infects between 130 and 150 million people worldwide and leads to between 350,000 and 500,00 deaths a year. Infection often lead on to chronic hepatitis, cirrhosis, fibrosis, hepatocellular carcinoma and eventually liver failure and death. Although there are now effective drugs targeting HCV, HCV and associated diseases are likely to continue to be a public health issue in the future because of their prohibitive cost. We do not yet have an effective vaccine to protect against the virus either.
One avenue to aid development of antivirals and vaccines is to understand HCV particle (virion) structure and the pathways that promote its assembly and its entry into cells. The catch is that HCV has been extremely challenging to manipulate in the lab under experimental settings. However, a paper published in the journal PNAS, (free here http://www.ncbi.nlm.nih.gov/pubmed/23690609) from the Charles Rice lab in New York (first author: Maria Teresa Catanese) has shown the characterisation of HCV virion structure using a powerful microscopic technique: cryoelectron tomography (cryo-EM), which has improved our understanding of HCV biology. The continuing use of this imaging technology combined with models of HCV entry and assembly may aid in the development of novel HCV drugs and vaccines.
Sunday, 27 July 2014
wheat beer #1
wheat beer #1 |
To improve upon the last recipe I made some alterations, namely in reducing the amount of input to bring down the OG. I also simplified it a bit and took out unnecessary carapils and wheat whole grains. The recipe was altered so as to allow 4.5 litre brewing.
Sunday, 22 June 2014
microtwjc analysis 2. unique tweeters
When considering participants in #microtwjc, we can also measure the number of unique tweeters, tweeters who have not tweeter at a previous session. This allows a measure of growth of #microtwjc to new people. I have plotted unique 'new' tweeters over time for both the total tweeters and the engaged (n<1 tweeters per session) people. Again, both measures are different. But a major finding of this is that #microtwjc has continued to recruit engaged tweeters over the time. This is at a fairly constant rate, except for a couple of spikes. I've shown the cumulative growth of tweeters in the graph below. Total is growing at an average of 1.8 tweeters/session while engaged are growing at an average of 1.3 tweeters per session. Questions arising from this are: are these tweeters staying? What's the loss of engagement like? To do this I could plot tweeters per person per session. Let's try that.
dark ale take 2.
Spoiler: it was great. The key to good and science (and good beer) is repetition. The act of doing an experiment again and again allows you to not only find weaknesses in your thinking and doing that you might not have realised but it allows you to act on those weaknesses and improve and rectify them. This is why I tried to make another porter/stout. This was mainly because the last one had some issues (too sugary sweet/ not mellow and not enjoyable to drink). This is a stout after all; it should be relaxing to drink. Guiness anyone? I had tried a similar recipe before (details here). The major differences between the two recipes that I planned are: lower original gravity and the addition of flavor elements that would mellow the beer out (oatmeal, coffee, dark chocolate). My thinking was that the worst aspects of the first beer were high OG and lack of complex elements (chocolate etc.). [never though of this but perhaps I shouldn't have used so much crystal]. Coffee was made in caffetiere, 4 squares of chocolate (Dark, tesco, cheap) were melted in the coffee + boiling water. Oatmeal was steeped. |
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Thursday, 19 June 2014
#microtwjc analysis 1.
The microbiology twitter journal club (#micrtowjc) has been going since x. This 'group' was established to allow the easy discussion of microbiology papers, data and ideas. To do this, a session is planned every two weeks (roughly) on a Tuesday night at 8 pm UK time. One moderator picks a paper that has been recently published (and is usually open access) and then uploads a brief summary and questions to be discussed come the next Tuesday.
This arrangement has been going on for about two years now and we have not had a chance to evaluate what we have done. In essence, we have conducted a two year experiment into using science communication. By doing a brief eye-balling online it looks like #microtwjc is longest running, functional twitter journal club. The original twitter journal (http://www.twitjc.com/) ran for 2.5 years (June 2011 - December 2013), with a half-year break between June 2013 and December 2013 (other breaks were taken). This means that #microtwjc affords an optimal chance of getting something useful out of its study.
For the last few months we have been trying to gather as much data about #microtwjc as we can. This covers number of tweeters over time at each session, number of tweets per tweeter per session, papers discussed, journals most chosen etc., etc. These data can be used to assess the worth and potential for #microtwjc to be better in the future. It also serves as a model to understand the use of twitter and social media for science communication and public engagement with science in the future.
In a series of posts I will try and analyse these data with a hope of finding some useful knowledge and wisdom about #microtwjc. You can view the data here.
A brief description of the methods to get the numbers discussed in this post. 1) each session was logged in storify or topsy format. 2) logged on to each site and searched for each session by date, name etc. 3) went through and counted number of tweeters and number of tweets they made. *this data collection was carried out by a number of the moderators of #microtwjc* . You know who you are. If any of you want to explore these data further, go do it. It's all open.
Firstly, I took the numbers and divided them per session (fig 1. ). What I quickly realised is that many tweeters tweeted only once, advertising the session, apologising for not being there. I felt these people were not 'engaged' with the session and as we are primarily interested in 'engagement' I decided to clean up the data and remove them from later analysis (posts to come). The engaged tweeters are shown in magenta (fig. 1.). The average tweeters per session was higher in the non-engaged group (As expected) with an average of ~8 compared to ~6. The spread of tweeters was also greater, mostly accounted for by session 1 (fig. 2 green).
Fig. 2. shows the data from fig. 1. shown over time for each session. This allows us to pick up peaks of troughs of activity and 'engagement'.
Comparing the number of 'engaged' tweeters with total tweeters for each session we can come up with a map of engagement over each session (fig. 3.). This largely parallels fig. 2. but shows it better.
I think two conclusions can be gleamed from this small analysis of #microtwjc tweets. 1) There is a more active 'engaged' community of tweeters and 2) tweeters and engaged tweeters changes over time. The reasons why are unknown. There looks to be a difference between years 1 and 2 (session 1 - 26). Your comments are welcome below.
The hope is that these data can be compiled, analysed, uploaded onto a data repository (figshare) and then use this to publish (PLoS, for example). This process will be completely open and collaborative.
This arrangement has been going on for about two years now and we have not had a chance to evaluate what we have done. In essence, we have conducted a two year experiment into using science communication. By doing a brief eye-balling online it looks like #microtwjc is longest running, functional twitter journal club. The original twitter journal (http://www.twitjc.com/) ran for 2.5 years (June 2011 - December 2013), with a half-year break between June 2013 and December 2013 (other breaks were taken). This means that #microtwjc affords an optimal chance of getting something useful out of its study.
For the last few months we have been trying to gather as much data about #microtwjc as we can. This covers number of tweeters over time at each session, number of tweets per tweeter per session, papers discussed, journals most chosen etc., etc. These data can be used to assess the worth and potential for #microtwjc to be better in the future. It also serves as a model to understand the use of twitter and social media for science communication and public engagement with science in the future.
In a series of posts I will try and analyse these data with a hope of finding some useful knowledge and wisdom about #microtwjc. You can view the data here.
A brief description of the methods to get the numbers discussed in this post. 1) each session was logged in storify or topsy format. 2) logged on to each site and searched for each session by date, name etc. 3) went through and counted number of tweeters and number of tweets they made. *this data collection was carried out by a number of the moderators of #microtwjc* . You know who you are. If any of you want to explore these data further, go do it. It's all open.
Firstly, I took the numbers and divided them per session (fig 1. ). What I quickly realised is that many tweeters tweeted only once, advertising the session, apologising for not being there. I felt these people were not 'engaged' with the session and as we are primarily interested in 'engagement' I decided to clean up the data and remove them from later analysis (posts to come). The engaged tweeters are shown in magenta (fig. 1.). The average tweeters per session was higher in the non-engaged group (As expected) with an average of ~8 compared to ~6. The spread of tweeters was also greater, mostly accounted for by session 1 (fig. 2 green).
fig 1. number of tweeters: total (green); tweeters tweeting more than once 'engaged' (magenta). |
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Comparing the number of 'engaged' tweeters with total tweeters for each session we can come up with a map of engagement over each session (fig. 3.). This largely parallels fig. 2. but shows it better.
fig. 3. percentage of tweeters who tweeted more than once per session (engaged) (orange). |
The hope is that these data can be compiled, analysed, uploaded onto a data repository (figshare) and then use this to publish (PLoS, for example). This process will be completely open and collaborative.
Tuesday, 17 June 2014
basic liver biology - why things go wrong when it's infected
Being a virologist is hard. Not only do you have to know molecular biology but you also have to know cell biology and if you are interested in how viruses cause disease, you have to know anatomy and physiology. As you can imagine, while being extremely interesting, it is very time consuming This is why I have spent the last few days (weeks now) trying to come to terms with my liver.
Your liver is pretty amazing. Chances are you take it's special role for granted but you really shouldn't. This is something that I have been thinking about over the last few months after starting a postdoc into hepatitis C virus (HCV) biology, while I pondered on what it must feel like to lose the function of your liver. To appreciate what is happening during a disease like viral hepatitis, you have to understand how the liver does it job when it's not sick. This post will hopefully be the beginning of a series of blog posts aimed at trying to understand HCV infection and pathogenesis and how my research fits into it. FYI - I have not included any references in this post because what I am writing is established understanding in basic textbooks. This post will act as background as I continue my exploration of the liver and HCV.
Your liver is pretty amazing. Chances are you take it's special role for granted but you really shouldn't. This is something that I have been thinking about over the last few months after starting a postdoc into hepatitis C virus (HCV) biology, while I pondered on what it must feel like to lose the function of your liver. To appreciate what is happening during a disease like viral hepatitis, you have to understand how the liver does it job when it's not sick. This post will hopefully be the beginning of a series of blog posts aimed at trying to understand HCV infection and pathogenesis and how my research fits into it. FYI - I have not included any references in this post because what I am writing is established understanding in basic textbooks. This post will act as background as I continue my exploration of the liver and HCV.
You probably won't have seen your liver and your only experience of its metabolic work will have been after you've had a few drinks and you don't remain inebriated for too long. But it also does much, much more. Your liver carries out a complex array of functions, very difficult to summarise in a post like this (but I'll give it a go). Your liver operates a central role in keeping you alive by carrying out a 'biotransformative' role, lying between absorption (your intestines do this) and excretion (your kidneys do this). Biotransformation exists as two major metabolic functions: altering and breaking down molecules (catabolism) and synthesising them and releasing them into your blood stream to feed the rest of your body (anabolism). Another variation in this role is to break down toxins that can damage your body and it can even release hormones and bile, allowing it to function as a gland (again, variations of catabolism and anabolism). It can also store glycogen, an important carbohydrate storage vessel. What did I say, it is a complicated organ, so no wonder things go bad when it gets infected. The most important feature of your liver that allows it to function as a biotransformative organ is its close association with your blood stream and to do this, your liver employs some interesting physiological tricks. But it is these tricks that open it up to infections and disease
your liver, in relation to stomach and pancreas. Note the lobes and blood supply. (integrated.ca.com) |
Anatomically, your liver is a large (1.5 kg), triangular organ in the top right hand side of your chest, beside your stomach and your intestines. It is divided into four sections, referred to as lobes. Allowing it to carry the job of breaking down and releasing important molecules into your bloodstream, is it's intimate relationship with your circulatory system, which is composed of blood and lymph fluids. Testament to this relationship is its reported blood flow of 1.5 litres per minute. Unlike other organs it has a dual blood supply made up of two major blood vessels run through your liver, the hepatic artery, which brings in oxygen-rich blood, and the the hepatic portal vein that brings in absorbed nutrients and toxins from your small intestine and allows the blood to flow back into circulation. What makes this dual supply even more impressive is the dense network of smaller blood-circulating endothelial cells that are in near-direct contact with your liver cells throughout your liver tissue. This anatomic arrangement allows maximisation of the surface area to volume ratio of you liver for optimal biotransformation.
hepatic lobules centred around a central vein (dnwalker.com) |
If you threw these four cell types into a pile together, very little would happen, but when arranged in the way that they are in your liver, they can efficiently interact with your blood. The patterns that these cell types are arranged in come in three flavours: classical hepatitic lobules, portal lobules and acini. Each pattern describes a different spatial interaction of hepatocytes with endothelial cells. The major structural unit of the liver is the classical hepatitic lobule. Within a single lobe of your liver there are many classical hepatitic lobules, each lobule is composed of a hexagonal arrangement of hepatocytes and endothelial cells. Both the hepatoyctes and endothelial cells are organised around a central vein with five-fold symmetry. At each point of the hexagon lies a 'portal triad' of hepatic arterioles, venules and bile ducts. The oxygen-rich blood coming from the hepatic artery and then moving through the liver lobules into the hepatic portal vein. Other patterns can be observed in your liver, and the lobules can also be divided into acini (with two-fold symmetry between portal triads and the other is the portal lobules, which is relevant for bile drainage.
cells in the hepatic lobules: not hepatocytes, sinosoidal endothelial cell and kupfer cells |
And so we come to the business end of the liver. Each cell has it's own role but it is the interactions between each of them allow the liver to carry out its important job. Importantly, the hepatocytes are the metabolic workhorses of the liver, and rightly, they make up the vast majority of the liver's mass. But in order to absorb and secrete, they must be in close contact with the blood supply and it is this interaction that is facilitated by the non-parenchymal cells, which essentially bridge the liver and the circulation. Most importantly, the endothelial cells form what are known as 'sinusoids', single-cell thick vessels with 'leaky' (fenestrated with no basement membrane) walls allowing extremely easy transport of blood fluid over the hepatocytes. But what happens inside the hepatocytes? I will explore this cell type in more detail in the next post.
Sunday, 18 May 2014
my weeks picks (18th May 2014)
virology
my PhD supervisor,Paul Duprex,will be on TWiV today at ASM (2 p.m Eastern Time) Paul Duprex @10queues and Julie Pfeiffer speaking about their work on #TWiV 18th May!" Livestream link here: https://www.facebook.com/thisweekinvirology/app_142371818162
Two new anti Hepatitis C virus drugs reach the market this year sparking any to question if HCV will be completely controllable. Here's a nice rundown on the drugs and their costs: http://www.theglobeandmail.com/life/health-and-fitness/health/the-cure-for-hepatitis-c-is-upon-us-but-at-a-costly-penny/article18224668/
The first case of MERS in the US was spotted in the last two weeks First #MERS case in the U.S.: Patient traveled from KSA to Chicago, then took a bus to Indiana http://www.cdc.gov/media/releases/2014/p0502-US-MERS.html … expect this kind of story to continue to appear. Looks like no real evidence of spread of disease but have to wait until incubation period has ran its course.
science. For more info on MERS, specifically testing and the apparent increase in cases, read this interview with Christian Drosten, virologist-extraordinaire. MT @profvrr: Great interview with Christian Drosten on #MERS http://bit.ly/1hvGQs6
Another coronavirus that hasn't had as much interest in comparison to MERS but should: Concerns grow over deadly pig virus. Would be great if coronaviruses would just stop... http://www.bbc.co.uk/news/science-environment-27256466 … devastating to pigs and the economy. No risk to humans though.
This week, Boston City council announced their backing for the opening of the category 4 National Emerging infectious disease laboratory (NEIDL). #NEIDL update: ordnance defeated, vote was 5 for ban, 8 against
Some lovely imaging work on Nipah virus transport of structural glycoproteins within neurons: live cell imaging of nipah virus glycoprotein transport in neuronal cells http://www.plospathogens.org/article/info%3Adoi%2F10.1371%2Fjournal.ppat.1004107 … fascinating
Science
Pfizer/Astrazeneca deal breaking continues to go on but what effect will it have on UK R&D? Pfizer and AstraZeneca "The Wyeth deal alone saw Pfizer scrap 19,000 staffers". http://www.theguardian.com/business/2014/apr/28/pfizer-astrazeneca-takeover-bad-news-uk-research?CMP=twt_fd …
Ex-soldier takes on MoD over vaccine. Gulf war syndrome http://www.bbc.co.uk/news/uk-27259202 …
Two vaccine stories this week: Do newer vaccine overwhelm the developing immune system? Debunking an anti-vaccine claim: Giving so many vaccines overwhelms a child's immune system http://bit.ly/Q0c3fq pic.twitter.com/kXsHjRe304
The Glasgow Science Festival is coming up, check out here for information http://glasgowsciencefestival.org.uk/ . come and see me there!
Sleep deprivation for personal/work gain. Where did it come from? Thomas Edison and the Cult of Sleep Deprivation http://pocket.co/sHnm5
homebrew
life
One week ago I passed my Ph.D. viva, ending 3.5 years of supervision from Paul Duprex and Bert Rima. Thanks guys!
my PhD supervisor,Paul Duprex,will be on TWiV today at ASM (2 p.m Eastern Time) Paul Duprex @10queues and Julie Pfeiffer speaking about their work on #TWiV 18th May!" Livestream link here: https://www.facebook.com/thisweekinvirology/app_142371818162
Two new anti Hepatitis C virus drugs reach the market this year sparking any to question if HCV will be completely controllable. Here's a nice rundown on the drugs and their costs: http://www.theglobeandmail.com/life/health-and-fitness/health/the-cure-for-hepatitis-c-is-upon-us-but-at-a-costly-penny/article18224668/
The first case of MERS in the US was spotted in the last two weeks First #MERS case in the U.S.: Patient traveled from KSA to Chicago, then took a bus to Indiana http://www.cdc.gov/media/releases/2014/p0502-US-MERS.html … expect this kind of story to continue to appear. Looks like no real evidence of spread of disease but have to wait until incubation period has ran its course.
science. For more info on MERS, specifically testing and the apparent increase in cases, read this interview with Christian Drosten, virologist-extraordinaire. MT @profvrr: Great interview with Christian Drosten on #MERS http://bit.ly/1hvGQs6
Another coronavirus that hasn't had as much interest in comparison to MERS but should: Concerns grow over deadly pig virus. Would be great if coronaviruses would just stop... http://www.bbc.co.uk/news/science-environment-27256466 … devastating to pigs and the economy. No risk to humans though.
This week, Boston City council announced their backing for the opening of the category 4 National Emerging infectious disease laboratory (NEIDL). #NEIDL update: ordnance defeated, vote was 5 for ban, 8 against
Some lovely imaging work on Nipah virus transport of structural glycoproteins within neurons: live cell imaging of nipah virus glycoprotein transport in neuronal cells http://www.plospathogens.org/article/info%3Adoi%2F10.1371%2Fjournal.ppat.1004107 … fascinating
Science
Pfizer/Astrazeneca deal breaking continues to go on but what effect will it have on UK R&D? Pfizer and AstraZeneca "The Wyeth deal alone saw Pfizer scrap 19,000 staffers". http://www.theguardian.com/business/2014/apr/28/pfizer-astrazeneca-takeover-bad-news-uk-research?CMP=twt_fd …
- and an ex UK soldier sues the Ministry of Defense over vaccine-induced disease
Ex-soldier takes on MoD over vaccine. Gulf war syndrome http://www.bbc.co.uk/news/uk-27259202 …
The Glasgow Science Festival is coming up, check out here for information http://glasgowsciencefestival.org.uk/ . come and see me there!
Sleep deprivation for personal/work gain. Where did it come from? Thomas Edison and the Cult of Sleep Deprivation http://pocket.co/sHnm5
homebrew
here's where I tried to make a porter/stout homebrew. It turned out OK.http://apostdocinvirology.blogspot.co.uk/2014/04/porter-take-1.html …
life
One week ago I passed my Ph.D. viva, ending 3.5 years of supervision from Paul Duprex and Bert Rima. Thanks guys!
Sunday, 27 April 2014
porter take 1
Doing science all day and talking about science in this blog can get a bit repetitive. But luckily I have a hobby to rest my mind, which takes the form of homebrewing beer (only on extract at the minute). I dabbled a bit before and am now continuing to dabble after my move to Glasgow. My first 'new' homebrew experience is making a porter-like beer (maybe on the 'robust' side), which in my head was a 'less-smooth' stout. You can read the exact description here. This was actually brewed for a friend of mine's birthday in April..
Below is the recipe I followed: and results.
Below is the recipe I followed: and results.
Virology, science, scicomm and life
Virology
Vincent Racaniello posts an intrigueing question over at Virology blog and debate ensures. What are your thoughts? why do some viruses have a segmented genome? http://www.virology.ws/2014/04/22/virology-question-of-the-week-why-a-segmented-viral-genome/ … measles versus influenza
A recent study published in the lancet looked at what viruses might be causing CNS disease in African malaria-endemic regions http://www.thelancet.com/pdfs/journals/langlo/PIIS2214109X13700603.pdf … not big surprise that mumps virus appeared to be a big cause (also lethal) - no mumps vaccination there. But major result of this paper is that in >2/3s patients we have no idea what caused disease. Unknown viruses anyone?
"@hannanorsted: For those interested in innate immunity, read this article: http://bit.ly/1ro0jl0 @PLOSPathogens" and #measles virus! This paper looked at what RNA sequences were being recognised in measles virus-infected cells. Showed bias towards A/U-rich regions of the L gene mRNA.
PLoS published a nice short look at RSV pathogenesis and potential for vaccine design http://www.plospathogens.org/article/info%3Adoi%2F10.1371%2Fjournal.ppat.1004016 … highlighting many of the issues with RSV regions but also showed where research could lead to, including new vaccines.
GAVI outlined their plans to expand impact of vaccines by 2020 http://pocket.co/sVDgY
More infographics. Measles infographics. I like these but think asymptomatic cases change it http://pocket.co/sVDgi I wouldlike more complicated infographics..
China and the SARS Epidemic, what was learned in ten years? Applicable to SA and MERS situation http://pocket.co/sVD5l An important history lesson if the Saudi Health Ministry are reading. But then there are also science issues: Why can't we predict evolution of MERS? Poor understanding of virus fitness. What constraints are acting? http://www.winnipegfreepress.com/world/mers-virus-hasnt-changed-not-reason-for-surge-in-saudi-cases-expert-256852541.html?device=mobile …
'Don’t worry, I’m not contagious' – and other microbiological delusions are discussed in this insightful piece http://pocket.co/sVDV5
it's about the little things - new virology blog. I follow the author but can't remember who... Help? http://pocket.co/sVDcJ Turns out it was Mike Nicholl. Go read it. It's very good.
For some reason I got interested n fruit bats and the Niger river in west Africa... Fruit bat annual migrations in west Africa re seasons http://www.nrcresearchpress.com/doi/abs/10.1139/z83-299 … What links west Africa? The Niger River of course. http://geography.howstuffworks.com/africa/the-niger-river.htm …
Other science
The Independant reported How a genetic disease was cured in an adult for the first time http://ind.pn/1iEBJtk thi was using CRISPR/Cas9 technology. This was also done using adult MICE and high-powered injections.
scicomm
The varieties of peer review: http://neurodojo.blogspot.co.uk/2014/04/the-varieties-of-peer-review.html … by @DoctorZen via @jasonpriem #peerreview pic.twitter.com/7bdA66COKH . Where do you want to fit in?
Defectivebrayne did a video summary of the last #microtwjc paper about the designer synthetic yeast chromosome:http://youtu.be/60rcoVfKh10 . This is very good and informative and capturesmany of the points that were discussed at that session.
life in general
Finally made it to Glasgow brewdog. Working my way down the list pic.twitter.com/0Efsnxhxxg - and then went again that week. Some great beers on showcase there.
Vincent Racaniello posts an intrigueing question over at Virology blog and debate ensures. What are your thoughts? why do some viruses have a segmented genome? http://www.virology.ws/2014/04/22/virology-question-of-the-week-why-a-segmented-viral-genome/ … measles versus influenza
A recent study published in the lancet looked at what viruses might be causing CNS disease in African malaria-endemic regions http://www.thelancet.com/pdfs/journals/langlo/PIIS2214109X13700603.pdf … not big surprise that mumps virus appeared to be a big cause (also lethal) - no mumps vaccination there. But major result of this paper is that in >2/3s patients we have no idea what caused disease. Unknown viruses anyone?
"@hannanorsted: For those interested in innate immunity, read this article: http://bit.ly/1ro0jl0 @PLOSPathogens" and #measles virus! This paper looked at what RNA sequences were being recognised in measles virus-infected cells. Showed bias towards A/U-rich regions of the L gene mRNA.
PLoS published a nice short look at RSV pathogenesis and potential for vaccine design http://www.plospathogens.org/article/info%3Adoi%2F10.1371%2Fjournal.ppat.1004016 … highlighting many of the issues with RSV regions but also showed where research could lead to, including new vaccines.
GAVI outlined their plans to expand impact of vaccines by 2020 http://pocket.co/sVDgY
More infographics. Measles infographics. I like these but think asymptomatic cases change it http://pocket.co/sVDgi I wouldlike more complicated infographics..
China and the SARS Epidemic, what was learned in ten years? Applicable to SA and MERS situation http://pocket.co/sVD5l An important history lesson if the Saudi Health Ministry are reading. But then there are also science issues: Why can't we predict evolution of MERS? Poor understanding of virus fitness. What constraints are acting? http://www.winnipegfreepress.com/world/mers-virus-hasnt-changed-not-reason-for-surge-in-saudi-cases-expert-256852541.html?device=mobile …
'Don’t worry, I’m not contagious' – and other microbiological delusions are discussed in this insightful piece http://pocket.co/sVDV5
it's about the little things - new virology blog. I follow the author but can't remember who... Help? http://pocket.co/sVDcJ Turns out it was Mike Nicholl. Go read it. It's very good.
For some reason I got interested n fruit bats and the Niger river in west Africa... Fruit bat annual migrations in west Africa re seasons http://www.nrcresearchpress.com/doi/abs/10.1139/z83-299 … What links west Africa? The Niger River of course. http://geography.howstuffworks.com/africa/the-niger-river.htm …
Other science
The Independant reported How a genetic disease was cured in an adult for the first time http://ind.pn/1iEBJtk thi was using CRISPR/Cas9 technology. This was also done using adult MICE and high-powered injections.
scicomm
The varieties of peer review: http://neurodojo.blogspot.co.uk/2014/04/the-varieties-of-peer-review.html … by @DoctorZen via @jasonpriem #peerreview pic.twitter.com/7bdA66COKH . Where do you want to fit in?
Defectivebrayne did a video summary of the last #microtwjc paper about the designer synthetic yeast chromosome:http://youtu.be/60rcoVfKh10 . This is very good and informative and capturesmany of the points that were discussed at that session.
life in general
Finally made it to Glasgow brewdog. Working my way down the list pic.twitter.com/0Efsnxhxxg - and then went again that week. Some great beers on showcase there.
Wednesday, 16 April 2014
Negatively regulating cell tropism modulates viral pathogenesis
I seem to keep saying this but it's good to have in mind: viruses are obligate intracellular parasites. They infect cells and this is what allows them to replicate and persist (and evolve) in the environment. What cells these viruses infect helps dictate how they infect and importantly, how they cause disease. The process of causing disease is known as pathogenesis and is the subject of this post. Knowing what cells a virus infects - and how they infect the cells - provides an understanding of basic virus biology and may influence the development of new antiviral treatments and vaccine design and implementation. Of course this isn't the only factor influencing viral infection, pathogenesis and transmission but it's a pretty major one and it's one factor that I have articulated interest in during and after my formative PhD years.
I have always felt (probably simplistically) that a virus actively chooses what cells to infect. Viruses evolve and adapt to particular host factors that allow it to enter, replicate in and assemble new infectious particles, which carry on the infectious cycle. On the scale of a human body, a virus might have adapted to infect epithelial cells lining your respiratory tract to allow initial infection, it might infect lymphocytes allowing modulation of systemic immunity, which may also provide the virus with access to tissues around the body that can lead to a large boost in replication facilitating virus excretion and transmission. Each one of these steps,in my head, the virus has chosen to infect. But what if a virus chooses not to infect a certain cell type, or at least limit replication. This is something I have not considered before. That was until I read this paper out recently. Not open access sadly:
RNA viruses can hijack vertebrate microRNAs to suppress innate immunity
To recap the paper, which has a particular pop. Sci title, (which I don't particularly like) but it's an interesting enough paper anyway. This group was interested in what stopped their favourite positive-sense RNA virus (North American eastern equine encephalitis virus, or EEEV, an rare infection limited to North America) from replicating in one certain cell type, myeloid dendritic cells. These cells are very important for antiviral immunity and act to coordinate our antiviral response to pathogens. Thus their biology affects protection from infection, disease progression and ultimately survival. They do this by sensing components of viruses or their replication and signalling to other cells that they have found an intruder. This signalling takes the form of an increase in interferon production and likely secretion of pro inflammatory proteins, designed to promote anti pathogen responses following infection. As myeloid dendritic cells pose a significant barrier to infection viruses have evolved multiple strategies to interact with and manipulate this cell type. Many viruses infect this cell type (for one example see this) and from within the cell influence it's behaviour but what EEEV does is a bit different. It simply avoids ever entering these cell types. And how it achieves this was the aim of this paper.
electron micrograph of EEEV virus particles (red) inside host cells |
What they found was that EEEV harbours sequences that are recognised by myeloid specific miRNAs, in particular miR-142-3p. This miRNA bound to viral genomes and prevented critical translation and subsequent replication and infection. Deletion of the region within the viral genome alleviated this restriction in replication in culture and addition of the region to other RNAs restricted their expression. There is also a mouse model for EEEV pathogenesis and when mice were infected with wild type or miR-142-3p binding region-deleted viruses they noticed a striking difference on infection and pathogenesis. Deletion of miR binding led to a decrease in virulence associated with increased replication in lymph nodes (as you might expect from a virus with little myeloid restriction) and secretion if interferons.
Now this is cool but it's not all simple. This region is also required for replication in mosquitoes (the vector species for EEEV). This is not thought to be mediated by a miR-142-3p interaction, presumably because it is not present in the insect genome. What is also difficult about this work is that they base their conclusions on whole-sale deletion of the miR-binding region and not targeted nucleotide substitutions, which could rule out any other functions this region might have, for example in RNA secondary structure or protein-RNA interactions. Until these experiments are done I think that the complete role of this region in the EEEV genome will not be cleared up. However, the interaction of miR-142-3p and the virus genome appears solid and with some interesting consequences.
These data show that EEEV contains an RNA sequence within its genome that directly limits its replication in these important cells in order to influence pathogenesis by physically interacting with host miRNAs. And, importantly, the virus doesn't really care - it actually likes it that way. It actively uses this 'negative tropism' to modulate the hosts immune response towards it, favouring its own replication and immune subversion. Uncovering secrets of viruses like this is fascinating and can have an impact on human health. Importantly it may lead to engineered vaccines for viruses, especially EEEV. Imagine an EEEV that replicated in myeloid cells, triggering an antiviral response in infected hosts that would limit disease but produce long-term protection? This work is put in context when you consider than influenza viruses that cannot express their genes in myeloid cells (antigen presenting cells specifically) by engineering of miR-142 into its genome (in the tenOever lab) do not stimulate an antiviral IFN response. Taken together with this work on EEEV, the myeloid cell/miR-142/pathogen axis looks like an interesting target when considering the link between infection, disease and rational vaccine design. But like any gene product that is involved in lots of aspects of host biology like miR-142 be wary when extrapolating from cell cultures and mice.
Sunday, 30 March 2014
parasites
Starting to write again, take 1:
Viruses are parasites. Specifically, they are obligate intracellular parasites. I end up thinking about these kinds of parasites everyday in work and in my personal life. While they replicate inside all kinds of cells, can cause disease and may actually manipulate your behaviour, they are only one often-devastating example of the parasite world all around us. And, as sad it is to admit it (as a card-carrying 'virologist'), other kinds of parasites might actually be just as interesting as they are. What kinds of parasites, I hear you ask? Well, watch this amazing TED talk of Ed Yong or, if you prefer paper, read this recent book on the topic by Dickson Despommier: 'People, parasites, and plowshares'.
Viruses are parasites. Specifically, they are obligate intracellular parasites. I end up thinking about these kinds of parasites everyday in work and in my personal life. While they replicate inside all kinds of cells, can cause disease and may actually manipulate your behaviour, they are only one often-devastating example of the parasite world all around us. And, as sad it is to admit it (as a card-carrying 'virologist'), other kinds of parasites might actually be just as interesting as they are. What kinds of parasites, I hear you ask? Well, watch this amazing TED talk of Ed Yong or, if you prefer paper, read this recent book on the topic by Dickson Despommier: 'People, parasites, and plowshares'.
Sunday, 16 February 2014
Interferons - they're a cGAS (i)
I'm a typical virologist, I am always talking about interferons. A while ago, under a slightly different guise, I wrote about the biological function of interferon proteins in stimulating the expression of myriad genes, many of which have proven antiviral activity. The fact that these genes and their protein products have antiviral functions makes them extremely interesting to researchers, like me, looking for new ways to treat human and animal infections with these viruses. Or even to anyone really who is interested in viral disease, evolution and medicine. These interferon stimulated proteins are especially interesting for studying viruses for which no vaccine exists. I'm thinking HIV, hepatitis C virus and even emerging infections like Ebola and rabies viruses. And until we develop good vaccines against these agents we're probably going to need antivirals. Note that even if we did have vaccines for these viruses they might not be economically viable to use and so we're back to making antivirals. Either that or we just screw those affected by the viruses. That's not going to happen.
Here's the issue though. Problem is, it takes years and years (major understatement) of research for humans to generate new antiviral drugs. So what if evolution has done the hard work for us? This is where the interferon proteins and their antiviral effectors come in. Turns out, evolution has done the hardwork for us. And this is where this paper, first author John Schoggins, with a host of other authors (many of which also carried out the experimental work) who worked in many labs, mainly across the US. Have a look at the paper for a list. These guys, along with an early paper featuring Sam Wilson and others (see my blog post linked to above), are pioneering the exploration of the - brace yourselves - the 'interferome' with a hope of generating novel antiviral drugs. My words not theirs.
Monday, 10 February 2014
first day
OK so I started my new position today as a postdoc at the Medical Research Centre (MRC) Centre for Virus Research (CVR) in Glasgow, Scotland. This is a position in the lab of Dr John McLauchlan who works on Hepatitis C virus. I have moved here following my Ph.D in Queen's University, Belfast. The project sounds very interesting as does the lab and associated staff and students. I got sorted out with HR and am now trying to get to grips with the reading around the subject and will be getting into the lab this week. Hopefully I will be able to discuss more about the project, hepatitis C and postdoctoral life in this blog. Keep an eye out for more updates as time goes by!
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