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The people behind the papers – Alok Javali, Aritra Misra & Ramkumar Sambasivan

Posted by , on 20 December 2017

Neuromesoderm progenitors are a population of stem cells that contribute to the neural tube and somite-forming paraxial mesoderm, and promote axial growth of the vertebrate embryo. In the latest issue of Development, a new paper addresses the transcriptional control of fate determination in this fascinating cell lineage. We caught up with co-first authors Alok Javali and Aritra Misra and their supervisor Ramkumar Sambasivan of the Institute for Stem Cell Biology and Regenerative Medicine in Bengaluru, India, to hear the story behind the work.

 

Alok, Ramkumar and Aritra

 

Ramkumar, can you give us your scientific biography and the main questions your lab is trying to answer?

RS It all started with the question how do skeletal muscle stem cells stay mitotically dormant and then wake up to proliferate and differentiate in order to repair damaged muscle. I had worked on this question for my Ph.D. thesis research and identified genes that play a role in return of dormant cells into active mitotic cycling. From addressing the cell biology of muscle stem cells, my interest broadened and I studied skeletal muscle development as well as regeneration in mice as a postdoctoral researcher.  Currently, in my laboratory, we study the how the myogenic mesoderm develops and diversifies in vertebrates. Another major interest is on neural crest development, a new addition to my long-standing interest in muscle.

 

What is the current standing and future prospects for developmental biology research in India?

RS Developmental biologists make a small community in India and there is a need for expansion to derive the benefits of a strong community. However, things appear to move in the right direction. The number of developmental biologists in India has seen a significant spurt in the recent past, which I could gauge from the fantastic biennial meetings of the Indian Society of Developmental Biology. This augurs well.

 

Alok and Aritra – how did you come to join Ramkumar’s lab?

AJ I joined the graduate program of NCBS and InStem in 2013. Having prior interest in developmental biology, I did my lab rotation in Ramkumar’s lab. Being the first grad student in the lab, I had unique opportunity to be a part of multiple projects, which were still at their inception, ranging from studies on mesoderm patterning to mechanisms of fate choice in neural crest cells. This really excited me to join the lab for pursuing my PhD.

AM Prior to joining NCBS-inStem graduate program, I had trained in evolutionary biology and comparative morphology while studying zoology at bachelors and Masters level. This drove me to pursue PhD in either Evo-Devo or cell communication. Since Ramkumar’s work overlapped with my interest, I chose to join his lab.

 

Tail bud NMP co-expression of Tbx6 and Sox2, from Fig 2, Javali, Misra et al. 2017

 

What’s so intriguing about neuromesodermal progenitors, and what were the questions you were hoping to answer in your study?

RS Neuromesodermal progenitors (NMPs) are key for axial growth in amniotes. I wonder about snakes and whales and the changes in the regulation of these progenitors that enabled such axially extended forms of life. Two different observations by Alok and Aritra took us in the direction of NMP biology and emphasized previous findings that Tbx6 is a key regulator of NMPs. The broad question is Tbx6 function in these progenitors. In this work we laid the foundation to tackle this question by addressing the timing of Tbx6 induction in NMP lineage.

 

Can you give us key results of the paper in a paragraph?

RS, AJ & AM We show that Tbx6 is expressed in a subset of neuromesoderm progenitors based on spatiotemporal expression pattern in the NMP niche in early mouse embryos. Co-expression of Tbx6 with Sox2, a neurogenic factor in this subset, as well as genetic tracing of Tbx6-expressing cells corroborated our findings of Tbx6 in NMPs. Expression of Tbx6 in NMPs provides a key missing link in favour of the current model in the field, which invokes Tbx6 as mesoderm switch in NMP lineage. In addition, we show that Tbx6 mutant mouse embryos have five developing spinal cords in the tail. This novel aspect of Tbx6 mutant phenotype in the tail further supports the model. Thus, our results strongly support the role of Tbx6 in promoting mesoderm fate choice of NMPs.

 

Assaying reporter expression in the caudal lateral epiblast, from Fig. 3, Javali Misra, et al. 2017

 

Your work supports the notion that Tbx6 as a bistable fate switch – how exactly do you think it plays this role?

AJ & RS Tbx6, being a transcription factor, functions by activating or repressing its transcriptional targets. Published literature already suggests that Tbx6 indirectly supresses the expression of Sox2, a key neurogenic factor, to promote mesodermal fate. An interesting aspect revealed by our study is the existence of a regulatory cell state, wherein Tbx6 and Sox2 are co-expressed. This indicates a biphasic function of Tbx6 in NMP lineage; early role in braking neural fate and subsequent function in mesoderm differentiation. We are currently trying to identify the spectrum of Tbx6 transcriptional targets to elucidate the mechanistic details of its function in NMP fate choice.

 

When doing the research, did you have any particular result or eureka moment that has stuck with you?

AJ: Looking at five distinct neural tubes arranged beautifully in a transverse section of mutant mouse embryo was special. Not everyday one gets to see such dramatic unreported phenotype. This was not really a Eureka moment as we were not anticipating this phenotype. This observation was accidental. We were trying to get transverse sections of a mutant embryo post in situ hybridization as the staining that we had performed was not very clear. We were not particularly looking into the tail region. Since the embryo is ‘C’ shaped, along with the transverse section of the interlimb region, we got the section of truncated tail of the mutant. And there we saw five distinct neural tubes.

 

Supernumerary neural tubes in Tbx6 mutants, from Fig. 4, Javali, Misra et al. 2017

 

AM: Tbx6 is viewed uniquely as paraxial mesoderm factor, but while analysing the confocal images of immunostaining in E8.5 mouse embryo tail regions, I observed specific subset co-expressing Tbx6 and Sox2, a neural marker, within NMP niche. This was indeed a eureka moment for me, because in mouse gastrulation, this expression precedes paraxial mesoderm formation in NMP lineage. This implied that there is more to Tbx6 function than had been appreciated.

 

And what about the flipside: any moments of frustration or despair?

AM: The most frustrating moment was trying to obtain serial transverse sections of a very specific anatomy of tiny E8.5 mouse embryos for control experiments to demonstrate that our novel  Tbx6Cre transgenic line reports for Tbx6 faithfully. I had to ensure that I do not lose any section in the series. This experiment also provided crucial support to our observation of Tbx6 expression in the NMP niche.

AJ The most frustrating time was when I was trying to get non-oblique transverse section of primitive streak and node regions of e8.5 mouse embryos and saggital section of tailbud of e9.5 mouse embryos. The region of interest in both these cases is extremely small. Getting the ideal sections with all the necessary anatomical information to identify the region of interest took multiple attempts.

 

Sagittal sections of tail buds with Sox2 (r) YFP (g) and Hoescht (b), from Fig. 4, Javali, Misra et al. 2017

 

 

What are your career plans following this work?

AM: I want to continue in academia. My interest is to work on the evolution of bilateral symmetry and I want to start by looking into reptiles. But I will also be excited to explore opportunities in facilities such as mouse genome engineering facilities or Jackson Laboratories.

AJ: I am currently working on my PhD project where I am trying to understand the role of micro-RNAs in the development of another interesting cell type called neural crest. As much as I am attracted to academic research, along with it, I would also like to explore a career path in science education, which I believe is a need of the hour in India.

 

And what next for the Sambasivan lab?

I will address what next for my lab in the context of NMPs.  We are curious about the evolutionary origin of NMPs and tracing this in the chordate lineage.

 

Finally, what do you like to do when you are not in the lab?

AM: I always wanted to be a historian and study the evolution of human civilization. I have not had the opportunity before joining for Ph.D., however, now I use my time out of lab to fulfil this dream. In the past 2 years I have researched on how evolution of Indian civilization can be traced to have more connections to the development of agrarian systems rather than changes in ruling dynasties. Recently I started to work on socio-economic changes in pre-British era driving changes in Indian demography. This began with an amazing book: Rise of Islam and the Bengal Frontiers by Richard Eaton. Currently I have started probing into the concept of Sacred Feminine and evolution of Egyptian society.

AJ: There are few things that I usually do. Swimming or running is my stress buster. I love to play Cricket (famous sport in India), though I don’t get much time for it anymore. I also love to read popular science books

RS: This used to be an easier question to answer.

 


Alok Javali, Aritra Misra, Karolis Leonavicius, Debalina Acharyya, Bhakti Vyas, Ramkumar Sambasivan. Co-expression of Tbx6 and Sox2 identifies a novel transient neuromesoderm progenitor cell state. 2017. Development, 

 

This is #34 in our interview series. Browse the archive here

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