Please help Lyso-SENS!
#61
Posted 11 January 2006 - 03:23 AM
Earlier than I had dared to hope, we have obtained two new cultures that efficiently degrade one of our major targets, 7-ketocholesterol. They reproducibly deplete it from the medium within 10 days, which is more rapid than anything we have seen before, and utilize it as a growth substrate. Now the fun will start to isolate the bugs from the mixed cultures and take them apart. One of the cultures originated from a mixed inoculum containing the early samples submitted by QJones and Mind and a few other donated garden samples. We cannot tell in which submission precisely they originated, since we pool several samples for efficiency. (you have to submit a couple of them to get your own exclusive pool ;-) The other culture came from cemetary samples collected by ourselves. Both cultures seem equally efficient, look alike and it could be the same organism.
Eternal thanks to our soil donors who made this wonderful result possible, together.
We have also gratefully received all other submissions announced in this thread, and more. These samples are now targeting A2E, for which we expect results in the coming weeks.
#62
Posted 11 January 2006 - 03:29 AM
#63
Posted 11 January 2006 - 01:34 PM
Could you post a picture of this beautifull culture?
#64
Posted 11 January 2006 - 09:09 PM
Attached Files
#65
Posted 11 January 2006 - 10:28 PM
Are you saying you couldn't get speedy decomposition before, when you had tried other types of soil samples? Or was there success on the first batch of dirt?
Anyway, it's nice to see my name in lights!
#66
Posted 11 January 2006 - 10:47 PM
#67
Posted 11 January 2006 - 11:23 PM
QJones, there were five other 7KC cultures that did not grow or degrade 7KC. It is possible that we previously had one that degraded it more slowly. So it seems that 7KC degraders are so abundant in nature that a medium-throughput experiment like this can reliably detect them. We did not know this before, so I would call it luck.
Wolfram, there used to be 0.1%, but now very little is left (perhaps some 0.001%), approaching the lower limit of detectability. The residual flocks you see in the bottle are probably soil, clumped bacteria, and perhaps to a small degree insoluble intermediate products.
#68
Posted 12 January 2006 - 12:04 AM
#69
Posted 12 January 2006 - 02:46 AM
#70
Posted 12 January 2006 - 08:14 PM
#71
Posted 12 January 2006 - 08:26 PM
#72
Posted 13 January 2006 - 02:14 AM
Do you think the bacteria that are breaking down the 7KC already had some 7KC degrading protein/enzyme, or do you think they may have modified an existing protein/enzyme to do the job?
#73
Posted 13 January 2006 - 04:12 AM
This would leave 7KC degrading bacteria with two basic strategies: Modify all (10-20) enzymes in the cholesterol pathway such that they also work on 7KC, or have a single dedicated enzyme that would reduce 7KC back to cholesterol, so that it can then be chased down the cholesterol pathway, or any mixture of the two (i.e. reducing an intermediate product). From a therapeutic viewpoint I think 7KC reduction would be most worth going for, but we have to take what the microbes give us. To pin down the best enzymatic systems, it is particularly great to have access to the large diversity of samples that is made possible by this soil donor program.
#74
Posted 13 January 2006 - 03:36 PM
I have just mailed you two samples for water/silt from two different underwater cave systems in north Florida. Hope you get them soon.
Guy
#75
Posted 14 January 2006 - 12:03 AM
#76
Posted 14 January 2006 - 01:07 AM
Jeff, yes, such experiments are under consideration. One project (I'm not involved in) might even seek to mutagenize existing cholesterol oxidase into accepting 7KC. The method of these mutagenesis experiments is slightly different, though. You would use some sort of mobile genetic element (transposon) to deliberately shuffle parts of the gene around, to arrive at a library of mutant genes. The library would then be transfected back into the host, or a suitable surrogate host, and screened for 7KC degradation just like any environmental sample (saving the thousands of generations -- and who would pay all the 7-keto ;-).
Another idea is to take 7KC processing cholesterol oxidase and mutagenize it to no longer accept plain cholesterol as a substrate with a similar system.
But these are for the future and should depend on some yet unknown properties of these enzyme systems.
#77
Posted 14 January 2006 - 10:58 PM
#78
Posted 18 January 2006 - 12:15 PM
#79
Posted 18 January 2006 - 04:27 PM
But, I'm quite sure they're not actually looking to inject bacteria, but isolate an enzyme that could help, instead.
#80
Posted 18 January 2006 - 05:55 PM
Gene therapy is another issue. We would need to gene-engineer at least the macrophages, because they are the major cell type involved in atherosclerosis. And here we're really in luck because macrophages come from the bone-marrow. So a gene/cell therapy approach similar to ones already in wide clinical use for non-malignant blood cell disorders would seem feasible. If done right, this should also tolerize the recipient immune system to the foreign enzymes and you could deliver entire pathways, rather than just single genes via an artificial chromosome. I would tend to think this is the preferable route of treatment for atherosclerosis.
If you use only cholesterol oxidase, almost certainly yes, because the product cholest-4-ene-3-one is mildly toxic and can be pro-atherogenic. Cholesterol oxidase is in fact a virulence factor for some animal pathogens (e.g R. equi) that exploit this to damage host immune cells. Even if the enzyme has only a low affinity for cholesterol, this could be a problem, because there is much more cholesterol in the cell than 7KC. Ways to get enzymes that accept 7KC but no cholesterol include looking for them (I'm doing that) or mutagenizing ones that can do both to lose their affinity for cholesterol (someone else is going to do that).Would it be a problem if this bacteria included normal cholesterol in their diet?
If you use a couple of steps, or a complete degradation pathway, confined to macrophage lysosomes, then probably no, and actively removing cholesterol from the lesion by such a route should in fact be a considerable additional benefit.
So exploring the whole degradation pathway has a rather high priority for me.
Edited by John Schloendorn, 18 January 2006 - 07:17 PM.
#81
Posted 19 January 2006 - 01:33 AM
Included in the idea of cholesterol eating should be that the bacteria could be coated with some biological non
antigenic material to lower or nullify any immune response.
#82
Posted 19 January 2006 - 06:24 AM
As for soil samples, lot's of work there. I'm wondering if you couldn't "farm" some of the needed microbes from cadaver tissues. Depositing these in places where such suspect microbes may be present. Like in graveyards! [:o]
#83
Posted 19 January 2006 - 05:57 PM
#84
Posted 19 January 2006 - 07:53 PM
As for soil samples, lot's of work there. I'm wondering if you couldn't "farm" some of the needed microbes from cadaver tissues. Depositing these in places where such suspect microbes may be present. Like in graveyards!
We already discussed and turned down the idea of any association with graveyards. From a science standpoint it makes some sense, but it would be terrible publicity.
#85
Posted 24 January 2006 - 02:54 AM
All: Update: After 14 days of culture with over 50 independent soil samples, we have no convincing evidence of A2E degradation. If you can, please continue to contribute, this time with special focus on A2E.
The class of compounds most relevantly similar to A2E are probably retinoids. They are found in fruit, flowers, other colored natural compouds, and are also enriched in some carnivorous vertebrates. (I found no A2E degraders in kitten feces, but maybe a tiger would do. Game anyone?)
Any place associated to the regular presence and/or decomposition of those should be a good place to check out, but please also be creative. Nature is huge and incomprehensibly complex, so seeking out any type of bizarre habitat is in principle a great idea. Retionids aren't exactly infrequent. (I'm really looking forward to giving Guy's latest deep sea ones a shot!)
#86
Posted 24 January 2006 - 04:53 AM
#87
Posted 24 January 2006 - 05:04 PM
#88
Posted 24 January 2006 - 05:53 PM
Dave, sounds good to me, especially if they have been rotting in the place for years so that all the juicy stuff is already gone. There's only one way to find out.
#89
Posted 24 January 2006 - 06:38 PM
#90
Posted 25 January 2006 - 01:23 AM
I have seen large guano piles benieth bat roosts in caves wherein I saw numbers of dead bats in different stages of decomposition. I wonder if this wouldn't be a place to obtain a sample for you guys.
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