Surajit Sinha scite author profile

Hedgehog (Hh) signaling is an important regulator of embryonic patterning, tissue regeneration, stem cell renewal and cancer growth. A purine derivative named purmorphamine was previously found to activate the Hh pathway and affect osteoblast differentiation through an unknown mechanism. We demonstrate here that purmorphamine directly targets Smoothened, a critical component of the Hh signaling pathway.

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Small-molecule inhibitors reveal multiple strategies for Hedgehog pathway blockade

Hyman¹,

Firestone²,

Heine

et al. 2009

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

273

236

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Light-controlled gene silencing in zebrafish embryos

2007

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Functional genomic studies in zebrafish frequently use synthetic oligonucleotides called morpholinos that block RNA splicing or translation. However, the constitutive activity of these reagents limits their experimental utility. We report here the synthesis of a photoactivatable morpholino targeting the no tail (ntl) gene. This caged reagent permits spatiotemporal gene regulation in vivo and the photochemical generation of functionally mosaic organisms.

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Multi-organ Site Metastatic Reactivation Mediated by Non-canonical Discoidin Domain Receptor 1 Signaling

Gao

Chakraborty

Zhang

et al. 2016

Cell

198

203

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SUMMARY Genetic screening identifies the atypical tetraspanin TM4SF1 as a strong mediator of metastatic reactivation of breast cancer. Intriguingly, TM4SF1 couples the collagen receptor tyrosine kinase DDR1 to the cortical adaptor syntenin 2 and, hence, to PKCα. The latter kinase phosphorylates and activates JAK2, leading to the activation of STAT3. This non-canonical mechanism of signaling induces the expression of SOX2 and NANOG, sustains the manifestation of cancer stem cell traits, and drives metastatic reactivation in the lung, bone, and brain. Bioinformatic analyses and pathological studies corroborate the clinical relevance of these findings. We conclude that non-canonical DDR1 signaling enables breast cancer cells to exploit the ubiquitous interstitial matrix component collagen I to undergo metastatic reactivation in multiple target organs.

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Versatile Synthesis and Rational Design of Caged Morpholinos

et al. 2009

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Embryogenesis is regulated by genetic programs that are dynamically executed in a stereotypic manner, and deciphering these molecular mechanisms requires the ability to control embryonic gene function with similar spatial and temporal precision. Chemical technologies can enable such genetic manipulations, as exemplified by the use of caged morpholino (cMO) oligonucleotides to inactivate genes in zebrafish and other optically transparent organisms with spatiotemporal control. Here we report optimized methods for the design and synthesis of hairpin cMOs incorporating a dimethoxynitrobenzyl (DMNB)-based bifunctional linker that permits cMO assembly in only three steps from commercially available reagents. Using this simplified procedure, we have systematically prepared cMOs with differing structural configurations and investigated how the in vitro thermodynamic properties of these reagents correlate with their in vivo activities. Through these studies, we have established general principles for cMO design and successfully applied them to several developmental genes. Our optimized synthetic and design methodologies have also enabled us to prepare a next-generation cMO that contains a bromohydroxyquinoline (BHQ)-based linker for two-photon uncaging. Collectively, these advances establish the generality of cMO technologies and will facilitate the application of these chemical probes in vivo for functional genomic studies.

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The Rho GTPase Rnd1 suppresses mammary tumorigenesis and EMT by restraining Ras-MAPK signalling

et al. 2014

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SUMMARY We identified the Rho-GTPase Rnd1 as a candidate metastasis suppressor through bioinformatics analysis and showed that its depletion disrupt epithelial adhesion and polarity, induced Epithelial-to-Mesenchymal Transition (EMT), and cooperated with deregulated expression of c-Myc or loss of p53 to cause neoplastic conversion. Mechanistic studies revealed that Rnd1 suppresses Ras signalling by activating the GAP domain of Plexin B1, which inhibits Rap1. Rap1 inhibition in turn led to derepression of p120-RasGAP, which was able to inhibit Ras. Inactivation of Rnd1 in mammary epithelial cells induced highly undifferentiated and invasive tumors in mice. Conversely, Rnd1 expression inhibited spontaneous and experimental lung colonization in mouse models of metastasis. Genomic studies indicated that gene deletion in combination with epigenetic silencing or, more rarely, point mutation inactivates RND1 in human breast cancer. These results reveal a previously unappreciated mechanism through which Rnd1 restrains activation of Ras-MAPK signaling and breast tumor initiation and progression.

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A Purine‐like Nickel(II) Base Pair for DNA

et al. 2005

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Metal in the middle: A metallo base pair incorporating 6‐pyridylpurine (Purp) was synthesized and characterized. PurP binds nickel(II) preferentially over other divalent ions and yields a base pair that is more stable than natural Watson–Crick pairs with high mismatch selectivity. Computational studies support a dimensional resemblance between PurP⋅Ni2+⋅PurP (see structure) and natural base pairs.

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Coordinated regulation of p53 apoptotic targets BAX and PUMA by SMAR1 through an identical MAR element

Sinha

Malonia

Mittal

et al. 2010

EMBO J

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How tumour suppressor p53 bifurcates cell cycle arrest and apoptosis and executes these distinct pathways is not clearly understood. We show that BAX and PUMA promoters harbour an identical MAR element and are transcriptional targets of SMAR1. On mild DNA damage, SMAR1 selectively represses BAX and PUMA through binding to the MAR independently of inducing p53 deacetylation through HDAC1. This generates an anti-apoptotic response leading to cell cycle arrest. Importantly, knockdown of SMAR1 induces apoptosis, which is abrogated in the absence of p53. Conversely, apoptotic DNA damage results in increased size and number of promyelocytic leukaemia (PML) nuclear bodies with consequent sequestration of SMAR1. This facilitates p53 acetylation and restricts SMAR1 binding to BAX and PUMA MAR leading to apoptosis. Thus, our study establishes MAR as a damage responsive cis element and SMAR1-PML crosstalk as a switch that modulates the decision between cell cycle arrest and apoptosis in response to DNA damage.

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Surajit Sinha

Purmorphamine activates the Hedgehog pathway by targeting Smoothened

Small-molecule inhibitors reveal multiple strategies for Hedgehog pathway blockade

Light-controlled gene silencing in zebrafish embryos

Multi-organ Site Metastatic Reactivation Mediated by Non-canonical Discoidin Domain Receptor 1 Signaling

Versatile Synthesis and Rational Design of Caged Morpholinos

The Rho GTPase Rnd1 suppresses mammary tumorigenesis and EMT by restraining Ras-MAPK signalling

A Purine‐like Nickel(II) Base Pair for DNA

Coordinated regulation of p53 apoptotic targets BAX and PUMA by SMAR1 through an identical MAR element

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