Randall K. Mann scite author profile

Basal cell carcinoma, medulloblastoma, rhabdomyosarcoma and other human tumours are associated with mutations that activate the proto-oncogene Smoothened (SMO) or that inactivate the tumour suppressor Patched (PTCH). Smoothened and Patched mediate the cellular response to the Hedgehog (Hh) secreted protein signal, and oncogenic mutations affecting these proteins cause excess activity of the Hh response pathway. Here we show that the plant-derived teratogen cyclopamine, which inhibits the Hh response, is a potential 'mechanism-based' therapeutic agent for treatment of these tumours. We show that cyclopamine or synthetic derivatives with improved potency block activation of the Hh response pathway and abnormal cell growth associated with both types of oncogenic mutation. Our results also indicate that cyclopamine may act by influencing the balance between active and inactive forms of Smoothened.

show abstract

Skinny Hedgehog, an Acyltransferase Required for Palmitoylation and Activity of the Hedgehog Signal

Chamoun

Mann

Nellen

et al. 2001

Science

405

408

View full text Add to dashboard Cite

One of the most dominant influences in the patterning of multicellular embryos is exerted by the Hedgehog (Hh) family of secreted signaling proteins. Here, we identify a segment polarity gene in Drosophila melanogaster, skinny hedgehog (ski), and show that its product is required in Hh-expressing cells for production of appropriate signaling activity in embryos and in the imaginal precursors of adult tissues. The ski gene encodes an apparent acyltransferase, and we provide genetic and biochemical evidence that Hh proteins from ski mutant cells retain carboxyl-terminal cholesterol modification but lack amino-terminal palmitate modification. Our results suggest that ski encodes an enzyme that acts within the secretory pathway to catalyze amino-terminal palmitoylation of Hh, and further demonstrate that this lipid modification is required for the embryonic and larval patterning activities of the Hh signal.

show abstract

Hedgehog Signal Transduction via Smoothened Association with a Cytoplasmic Complex Scaffolded by the Atypical Kinesin, Costal-2

et al. 2003

View full text Add to dashboard Cite

The seven-transmembrane protein Smoothened (Smo) transduces extracellular activation of the Hedgehog (Hh) pathway by an unknown mechanism to increase transcriptional activity of the latent cytoplasmic transcription factor Ci (Cubitus interruptus). Here, we present evidence that Smo associates directly with a Ci-containing complex that is scaffolded and stabilized by the atypical kinesin, Costal-2 (Cos2). This complex constitutively suppresses pathway activity, but Hh signaling reverses its regulatory effect to promote Ci-mediated transcription. In response to Hh activation of Smo, Cos2 mediates accumulation and phosphorylation of Smo at the membrane as well as phosphorylation of the cytoplasmic components Fu and Su(fu). Positive response of Cos2 to Hh stimulation requires a portion of the Smo cytoplasmic tail and the Cos2 cargo domain, which interacts directly with Smo.

show abstract

Novel Lipid Modifications of Secreted Protein Signals

Mann

Beachy

2004

Annu. Rev. Biochem.

300

259

View full text Add to dashboard Cite

Secreted signaling proteins function in a diverse array of essential patterning events during metazoan development, ranging from embryonic segmentation in insects to neural tube differentiation in vertebrates. These proteins generally are expressed in a localized manner, and they may elicit distinct concentration-dependent responses in the cells of surrounding tissues and structures, thus functioning as morphogens that specify the pattern of cellular responses by their tissue distribution. Given the importance of signal distribution, it is notable that the Hedgehog (Hh) and Wnt proteins, two of the most important families of such signals, are known to be covalently modified by lipid moieties, the membrane-anchoring properties of which are not consistent with passive models of protein mobilization within tissues. This review focuses on the mechanisms underlying biogenesis of the mature Hh proteins, which are dually modified by cholesteryl and palmitoyl adducts, as well as on the relationship between Hh proteins and the self-splicing proteins (i.e., proteins containing inteins) and the Hh-like proteins of nematodes. We further discuss the cellular mechanisms that have evolved to handle lipidated Hh proteins in the spatial deployment of the signal in developing tissues and the more recent findings that implicate palmitate modification as an important feature of Wnt signaling proteins.

show abstract

Yeast histone H4 N-terminal sequence is required for promoter activation in vivo

Durrin

Mann

Kayne

et al. 1991

Cell

316

232

View full text Add to dashboard Cite

Genetic and biochemical definition of the Hedgehog receptor

Zheng¹,

Mann²,

Sever³

et al. 2010

Genes Dev.

120

204

View full text Add to dashboard Cite

Although the transporter-like protein Patched (Ptc) is genetically implicated in reception of the extracellular Hedgehog (Hh) protein signal, a clear definition of the Hh receptor is complicated by the existence of additional Hh-binding proteins and, in Drosophila, by the lack of physical evidence for direct binding of Hh to Ptc. Here we show that activity of Ihog (Interference hedgehog), or of its close relative Boi (Brother of Ihog), is absolutely required for Hh biological response and for sequestration of the Hh protein to limit long-range signaling. We demonstrate that Ihog interacts directly with Ptc, is required for presentation of Ptc on the cell surface, and that Ihog and Ptc are both required for high-affinity Hh binding. On the basis of their joint roles in ligand binding, signal transduction, and receptor trafficking, we conclude that Ihog and Ptc together constitute the Drosophila Hh receptor.[Keywords: Brother of Ihog; Hedgehog receptor; Hedgehog signaling; Ihog; Patched] Supplemental material is available at http://www.genesdev.org.

show abstract

Scube/You activity mediates release of dually lipid-modified Hedgehog signal in soluble form

Creanga¹,

Glenn²,

Mann³

et al. 2012

Genes Dev.

137

164

View full text Add to dashboard Cite

Owing to their covalent modification by cholesterol and palmitate, Hedgehog (Hh) signaling proteins are localized predominantly to the plasma membrane of expressing cells. Yet Hh proteins are also capable of mobilizing to and eliciting direct responses from distant cells. The zebrafish you gene, identified genetically >15 years ago, was more recently shown to encode a secreted glycoprotein that acts cell-nonautonomously in the Hh signaling pathway by an unknown mechanism. We investigated the function of the protein encoded by murine Scube2, an ortholog of you, and found that it mediates release in soluble form of the mature, cholesterol- and palmitate-modified Sonic hedgehog protein signal (ShhNp) when added to cultured cells or purified detergent-resistant membrane microdomains containing ShhNp. The efficiency of Scube2-mediated release of ShhNp is enhanced by the palmitate adduct of ShhNp and by coexpression in ShhNp-producing cells of mDispatchedA (mDispA), a transporter-like protein with a previously defined role in the release of lipid-modified Hh signals. The structural determinants of Scube2 required for its activity in cultured cell assays match those required for rescue of you mutant zebrafish embryos, and we thus conclude that the role of Scube/You proteins in Hh signaling in vivo is to facilitate the release and mobilization of Hh proteins for distant action.

show abstract

Histone H3 N-terminal mutations allow hyperactivation of the yeast GAL1 gene in vivo.

1992

View full text Add to dashboard Cite

Recent work has shown that the yeast histone H4 N‐terminus, while not essential for viability, is required for repression of the silent mating loci and activation of GAL1 and PHO5 promoters. Because histone H3 shares many structural features with histone H4 and is intimately associated with H4 in the assembled nucleosome, we asked whether H3 has similar functions. While the basic N‐terminal domain of H3 is found to be non‐essential (deletion of residues 4–40 of this 135 amino acid protein allows viability), its removal has only a minor effect on mating. Surprisingly, both deletions (of residues 4–15) and acetylation site substitutions (at residues 9, 14 and 18) within the N‐terminus of H3 allow hyperactivation of the GAL1 promoter as well as a number of other GAL4‐regulated genes including GAL2, GAL7 and GAL10. To a limited extent glucose repression is also alleviated by H3 N‐terminal deletions. Expression of another inducible promoter, PHO5, is shown to be relatively unaffected. We conclude that the H3 and H4 N‐termini have different functions in both the repression of the silent mating loci and in the regulation of GAL1.

show abstract

12 3

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Randall K. Mann

Effects of oncogenic mutations in Smoothened and Patched can be reversed by cyclopamine

Skinny Hedgehog, an Acyltransferase Required for Palmitoylation and Activity of the Hedgehog Signal

Hedgehog Signal Transduction via Smoothened Association with a Cytoplasmic Complex Scaffolded by the Atypical Kinesin, Costal-2

Novel Lipid Modifications of Secreted Protein Signals

Yeast histone H4 N-terminal sequence is required for promoter activation in vivo

Genetic and biochemical definition of the Hedgehog receptor

Scube/You activity mediates release of dually lipid-modified Hedgehog signal in soluble form

Histone H3 N-terminal mutations allow hyperactivation of the yeast GAL1 gene in vivo.

Contact Info

Product

Resources

About