Saturday, November 19, 2011

FoxP2 in the News

I wrote on Monday last week about Svante Pääbo's work with hominin lineage, and his recent findings with FoxP2 transgenic mice.  This morning, this article was printed in Nature News on FoxP2's spotlight moment.  The author highlights the work presented at SfN last week by Christiane Schreiweis, a colleague of Dr. Pääbo.

SfN Wednesday 2011: Second Wind

By the end of the conference, my eating schedule has not adapted to being on the east coast, but my body has.  Exhaustion kicks in like a toddler, and come Wednesday morning I feel like slithering through the grasping arms of Science and collapsing to the floor.  Of course, my poster is this morning.

In contrast to the anticipated slow puttering of folk on the final day of the meeting, area L10 boasted anywhere between 3-10 participants for the entire 4-hr block.  <thrillz>  In addition, several of teh femus peepl made appearances.  One hung out in the back of the crowd and chimed in when I referenced his work's influence on ours.  Another offered excellent discussion and announced that he had begun using the model that we developed last year (also employed in this year's work) <chillz>.  A third made offer of collaboration and (either partly or entirely in jest) a post doc position for five years from now when I potentially actually have a doctorate.  And a renowned woman for whom there is a special place in my heart offered suggestions for follow-up studies, collaboration, and an awkward scientist hug as she left. <second wind>

Also notably, there is good Phở in DC.  Following the rush of the poster session, Boss Man treated me to my second dose of Phở for the week, and it was grand.  The Super Shuttle that was then scheduled to escort me to my next 11 hours of travel failed to appear, and the taxi that rescued me from certain doom naturally forgot to tell me that his apparatus was broken and that he couldn't take my card, and naturally didn't have any change to break the $20 of which he only should have taken $14, and naturally had no means by which to provide me with a receipt for reimbursement.  This was not the first such incident during my week in DC.  <billz>

See you next year in New Orleans!


Friday, November 18, 2011

SfN Tuesday 2011: Winding

Tuesday morning: a slew of great posters and conversations.  I prefer poster sessions with fewer and more impactful scans, and was very impressed with the elegance of several presentations in this session.  I was also fascinated to see that several of the bigwigs whose work I have followed over the last four years are transitioning into more genetic/molecular and less neurotoxin-centric modeling systems.  This is a direction in which I may continue if planted in Dr. PDstemcell's lab next year, and wouldn't it be grand to already have some acquaintances in that new arena?

Sally Temple, the current director of the Neural Stem Cell Institute, gave an excellent talk later in the morning and into the afternoon.  Although my lunch rendezvous prevented my attending the full symposium, I was able to digest her historical overview.  Some key points of interest are below.  **If anyone was able to attend this full talk, please comment!**
  • In 1887, Wilhelm His identified 2 cell types: germinal cells as rounded cells nearest the lumen (neuronal precursors), and columnar spongioblasts (radial glia).
  • In 1987, Jack Price and colleagues were the first to monitor cellular development using retroviral lineage tracing with β-galactosidase.  The paper in PNAS is beautiful and succinct, and I highly recommend reviewing it for as an introduction to neural lineages.  Arnold Kreigstein's lab has also played a pivotal role in describing neural lineages, which Dr. Temple referred to briefly but I believe warrant more obvious credit in the evolution of this field.
  • The last piece I caught was in reference to recent software developed by Andy Cohen's lab: a program for tagging and following cell division in vitro via time-lapse microscopy, and easily translating these divisions into lineage trees.  To appreciate this fully, consider the giant leaps forward that technological development have allowed in the evolution of scientific industry.  The polymerase chain reaction (PCR) is so simple, and used so ubiquitously now that one has to imagine the grueling hours of restriction enzyme assays and semi-quantitative analyses that were necessary before its development in order to realize its gigantic contribution to throughput.  Andy Cohen's software is another such landmark in the progress of scientific industry.
I attended the Protein Synthesis and Axon Pathfinding in Regeneration minisymposia later in the afternoon.  Of note to your humble narrator was some research from Samie Jaffery's lab at Cornell U.  Dr. Jaffrey proposed a mechanism of axon guidance through nonsense-mediated decay (NMD), a process wherein mRNA is degraded following a "pioneer round" of transcription. 
  • Commissural neurons grow toward the midline and netrin-1 in the floor plate, then are repelled from the floor plate post-crossing.  A family of receptor proteins called Robos are key players in this mechanism.  Jaffrey's research indicates compartmental expression of Robo3.1 and Robo3.2 receptors in commissural neurons.  Robo3.1 suppresses other Robos so that the axon can grow toward the midline, after which point Robo3.2 expression enhances repulsion from the floor plate.  If ther eis no Robo3.1, axons don't cross the midline.  If there is no Robo3.2, axons cross and then turn backward and grow aberrantly.
  • Jaffrey's lab asked if the switch between Robo3.1 and Robo3.2 was temporally dependent, or in the determined in the floor plate.  They made open book explants of spinal cord with no floor plate, and observed protein expression at E10.  Although Robo3.2 expression was expected by this time point, only Robo3.1 was expressed.  When the floor plate was reintroduced, Robo3.2 expression was observed.  This indicated a floor plate mechanism as opposed to a temporal switch within the commissural neurons.
  • To confirm this suspicion, the spinal cord floor plate was cultured alone, and the resulting conditioned media was applied to the tips of axons in spinal cord explants without a floor plate.  With the floor plate media, the commissural axon tips expressed Robo3.2.
  • The next obvious question was what mediated this switch.  The group predicted a NMD switch based on indicative NMD sequence in the Robo3.2 gene not observe in the Robo3.1 gene.  When they expressed the dominant-negative form of NMD proteins, axons crossed the midline but then grew aberrantly.  If the NMD mechanism was blocked, more Robo3.2 was produced and there was increased repulsion to both the floor plate and midline.  Therefore, an NMD-dependent mechanism of axon guidance in developing commissural neurons was speculated, although the proteins involved in NMD activity in the floor plate is yet to be determined.
Tuesday evening was spent having a somewhat awkward but fun dinner with my former PI, and acting like a child with my fascinating and inspiring last-minute conference roommate.  The ideal way to wrap up a grueling SfN day as the conference approaches its final hours and inflicts an inescapable exhaustion/delirium.

Monday, November 14, 2011

SfN Monday 2011: Almost Femus

Saturday and Sunday were gargantuan days whose events were not ideal blog fodder (read: 5,000,203 posters).  Today's events, in contrast, are worth reporting.

This morning's poster session began with a very brief reunion with my most admired undergraduate professor, and ended with the development of a potential future collaboration to take place in the lab in which I have not yet even rotated (lolz...).

In the late morning I attended the David Kopf Lecture on Neuroethics, given by Svante Pääbo of the Max Plank Institute of Evolutionary Anthropology in Germany (yes, I just Wiki-linked him).  The man's career is packed with astounding work, only a glimpse of which we were given today.  In brief, Dr. Pääbo's talk came down to three parts:
  • Although evolution has seen total replacement of mitochondrial DNA in modern humans such that none of us share mitochondrial DNA with Neadertals, 2.5% of our nuclear genome derives from Neandertal lineage.
  • Analysis of a newly unearthed finger tip fossil reveals a hitherto unknown line of hominin that Pääbo's group called Denisovans, who share Neandertal DNA back to 650,000 years, and with modern humans back to 800,000 years.  From genome comparisons, Pääbo elucidated the geographical interbreeding patterns of these three lines.  Matching between modern humans and  Denisovans was 90K in a French subject, 70K in an African subject, and 86K in a New Guinean subject (*approximations).  Which... if you've ever read [and loved] Richard Dawkins' The Ancestor's Tale, Pääbo's work will blow your mind.
  • Finally (and my favorite part, as a basal ganglia fanatic), Pääbo et al have utilized the divergence of Neandertal, Denisovan and modern human to identify genomic regions positively selected in human evolution.  He elaborates on one such candidate, the FoxP2 gene, which is involved in speech and language development.  In a transgenic mouse, the expression of human FoxP2 produces 323 phenotypes.  One of these phenotypes is elongation of dendritic trees in the striatum.  Another is an overall decrease in whole brain dopamine levels, and finally altered vocalization patterns.  I'll reiterate: a human gene positively selected by evolution to help humans develop language is capable of altering the morphology of a mouse brain region involved in spatial learning and attention, and altering the way mice "speak".  (scencegasm)
Elated by Pääbo's lecture, which has nothing to do with what I'm researching currently (or in the forseeable future), I re-entered the massive dungeon hall of posters and ran into my current rotation PI as well as a crew of several of his past students and post docs.  What fantastic people they were, and how enamored they were of Dr. Spinal Cord Repairman, and how encouraging they were that I continue in his lab!  At what a time, too, when I am frustrated by my lack of productivity this term and the general disorganization of the lab atmosphere.  Perhaps these are things which are worth taking with a grain of salt after all.  I was even more encouraged when I happened upon [read: hunted down] a collaborator of Dr. Spinal Cord Repairman's who is mucho femus.  This is a man with whom I have exchanged all of two emails discussing the direction of the project I'm currently working on which happens to be a collaborative one, and who remembered my name.  (flutter)

Tonight: tour of the sites, BANTER.


Sunday, November 13, 2011

SfN Sunday 2011: Ms. Raga goes to Washington

The great and consuming thing about the Society for Neuroscience meeting is that even veterans can be noobs.

Last year, I approached SfN as somewhat of an expert in my niche of the Parkinson's field, seeking out renowned folks whose work had inspired my own and carrying meaningful scientific conversations with poster and talk presenters as if it were casual chatter.

This year, I find myself engaging in so many unfamiliar arenas that I have retired a whole 2 hours early to the comfort of my snazzy hotel room to put my feet up and compile/further research the whirlwind of fascinating information gleaned today.

Today was poster intensive, to put it lightly, so tomorrow will include some symposia.  Just to mix it up.

Second lesson learned: Neurotypical? is as fantastic IRL as in the blogosphere.

Tuesday, November 8, 2011

SfN Survival Guide 2011

This is my second year attending SfN.  Last year, I managed to pull off a pretty successful run.  However, SfN is such a vast meeting that the experience you have there is redefined every year you go, depending on where you are in your career.

This year, I am a first year grad student and will be scoping out roughly 3x the content (catering to rotations) as when I was a research assistant last year.  This means that burn-out is 3x as likely, but I have planned my schedule with two things in mind:

1)  I will not get to everything that I have put on my itinerary.
2)  The goal is to get an introduction to the most exciting recent activity in the 3 areas encompassing my rotation projects, and not to get bogged down by exciting developments in these entire fields.  I have some people to meet, some "old" acquaintances to schmooze, and some free mugs to acquire.  Should be baller.

I was going to write a First Year Graduate Student's Survival Guide to SfN, but found that Dr Becca has beaten me to it: SfN Survival 101.  Check out her stellar overview of things to keep in mind while planning your SfN experience.  Seriously, she hits everything.

As for yours truly, although I am not an official Neuroblogger this year, I will be reporting regularly.  And I will be seeing some of y'all at BANTER...