A PAK family kinase and the Hippo/Yorkie pathway modulate WNT signaling to functionally integrate body axes during regeneration

Doddihal, Viraj; Mann, Frederick G.; Ross, Eric J.; McKinney, Mary C.; Guerrero-Hernández, Carlos; Brewster, Carolyn E.; McKinney, Sean A.; Sánchez Alvarado, Alejandro

doi:10.1073/pnas.2321919121

Proc. Natl. Acad. Sci. U.S.A.

2024

DOI: 10.1073/pnas.2321919121

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A PAK family kinase and the Hippo/Yorkie pathway modulate WNT signaling to functionally integrate body axes during regeneration

Viraj Doddihal,

Frederick G. Mann,

Eric J. Ross

et al.

Abstract: Successful regeneration of missing tissues requires seamless integration of positional information along the body axes. Planarians, which regenerate from almost any injury, use conserved, developmentally important signaling pathways to pattern the body axes. However, the molecular mechanisms which facilitate cross talk between these signaling pathways to integrate positional information remain poorly understood. Here, we report a p21-activated kinase ( smed-pak1 … Show more

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Cited by 3 publications

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Mining differentially expressed genes during paratomy in the transcriptome of the flatworm Stenostomum leucops

da Rosa,

Loreto

2024

Sci Rep

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Paratomy is an asexual reproductive process that occurs in annelids, flatworms and other groups. During this process, anterior structures are formed in the middle of the body, giving rise to segmented organisms, each segment being called a zooid. Once formed, the zooids detach and form new organisms. Using RNAseq of worms prior to zooid formation and with two zooids, we search for genes that are differentially expressed and may be related to the control of this process in the flatworm Stenostomum leucops. Several signaling pathways showed differential expression, including MAPK/ERK, PI3K-Akt, Wnt, TGFb, mTOR, FoxO and others. Forty-five genes were found to be particularly significant because they are differentially expressed and play an important role in the development of other flatworms. These include ERK , MKP , JNK , PI3K , PTEN , β - catenin , FoxO , Sufu , GH and others. The results suggest some similarities in gene regulation between paratomy and regeneration observed in other flatworms after fission or amputation. In worms without zooids, pathways required for cell proliferation, differentiation of cells into multiple cell lineages and determination of the body axis are activated. In worms with 2 zooids, genes involved in cell growth and apoptosis are activated. Activation of genes involved in neoblast proliferation and maintenance appears to occur at both stages. Supplementary Information The online version contains supplementary material available at 10.1038/s41598-024-80881-6.

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Mining differentially expressed genes during paratomy in the transcriptome of the flatworm Stenostomum leucops

da Rosa,

Loreto

2024

Sci Rep

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A powerful and versatile new fixation protocol for immunostaining and in situ hybridization that preserves delicate tissues

Guerrero-Hernández,

Doddihal,

Mann

et al. 2024

BMC Biol

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Background Understanding how genes function to heal wounds and restore lost tissue is essential for studying regeneration. Whole-mount in situ hybridization (WISH) is a powerful and widely used technique to visualize the expression patterns of genes in different biological systems. Yet, existing methods to permeabilize samples for WISH can damage or destroy fragile regenerating tissues, thereby preventing such experiments. Results Here, we describe a new protocol for in situ hybridization (ISH) and immunostaining in the highly regenerative planarian Schmidtea mediterranea. This new Nitric Acid/Formic Acid (NAFA) protocol is compatible with both the assays and prevents degradation of the epidermis and regeneration blastema. The NAFA protocol achieves this without the use of proteinase K digestion which likely leads to better preservation of antigen epitopes. We show that the NAFA protocol successfully permits development of chromogenic and fluorescent signals in situ, while preserving the anatomy of the animal. Furthermore, the immunostaining of different proteins was compatible with the NAFA protocol following fluorescent in situ hybridization. Additionally, the tissue fixation protocol was easily adapted for regenerating killifish tail fin, which yielded better ISH signal with minimal background. Conclusions Thus, the NAFA protocol robustly preserves the delicate wounded tissues while also facilitating probe and antibody penetration into internal tissues. Furthermore, the fixation protocol is compatible for WISH on regenerating teleost fins suggesting that it will be a valuable technique for studying the processes of wounding response and regeneration in multiple species.

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Adapting to change: insights from new organisms in cell and developmental biology

Lemke,

Albright,

Guse

2024

Development

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We are living in an era of environmental change with undeniable parallels with past mass extinctions. To improve our understanding of planetary health and resilience, we must expand our research beyond traditional lab models. Forecasting the future of biological diversity relies on extrapolation of past trends, which necessitates the study of a wider range of biological systems. The ‘Unconventional and Emerging Experimental Organisms for Cell and Developmental Biology’ meeting, which took place in Dorking, UK, in September 2023, emphasized the importance of this broader approach. Discussions centered on evolutionary innovation, robustness and diversity, underscoring the need for broader taxon sampling and novel experimental models to address current and future challenges.

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A PAK family kinase and the Hippo/Yorkie pathway modulate WNT signaling to functionally integrate body axes during regeneration

Cited by 3 publications

References 114 publications

Mining differentially expressed genes during paratomy in the transcriptome of the flatworm Stenostomum leucops

Mining differentially expressed genes during paratomy in the transcriptome of the flatworm Stenostomum leucops

A powerful and versatile new fixation protocol for immunostaining and in situ hybridization that preserves delicate tissues

Adapting to change: insights from new organisms in cell and developmental biology

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