Gender disparities in colloquium speakers at top universities

Human mesenchymal stem cells are thought to be multipotent cells, which are present in adult marrow, that can replicate as undifferentiated cells and that have the potential to differentiate to lineages of mesenchymal tissues, including bone, cartilage, fat, tendon, muscle, and marrow stroma. Cells that have the characteristics of human mesenchymal stem cells were isolated from marrow aspirates of volunteer donors. These cells displayed a stable phenotype and remained as a monolayer in vitro. These adult stem cells could be induced to differentiate exclusively into the adipocytic, chondrocytic, or osteocytic lineages. Individual stem cells were identified that, when expanded to colonies, retained their multilineage potential.

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Chondrogenic Differentiation of Cultured Human Mesenchymal Stem Cells from Marrow

Mackay

et al. 1998

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In the adult human, mesenchymal stem cells (MSCs) resident in bone marrow retain the capacity to proliferate and differentiate along multiple connective tissue lineages, including cartilage. In this study, culture-expanded human MSCs (hMSCs) of 60 human donors were induced to express the morphology and gene products of chondrocytes. Chondrogenesis was induced by culturing hMSCs in micromass pellets in the presence of a defined medium that included 100 nM dexamethasone and 10 ng/ml transforming growth factor-beta(3) (TGF-beta(3)). Within 14 days, cells secreted an extracellular matrix incorporating type II collagen, aggrecan, and anionic proteoglycans. hMSCs could be further differentiated to the hypertrophic state by the addition of 50 nM thyroxine, the withdrawal of TGF-beta(3), and the reduction of dexamethasone concentration to 1 nM. Increased understanding of the induction of chondrogenic differentiation should lead to further progress in defining the mechanisms responsible for the generation of cartilaginous tissues, their maintenance, and their regeneration.

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GFRAL is the receptor for GDF15 and the ligand promotes weight loss in mice and nonhuman primates

Mullican

Lin-Schmidt

Chin

et al. 2017

Nat Med

531

587

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Growth differentiation factor 15 (GDF15), a distant member of the transforming growth factor (TGF)-β family, is a secreted protein that circulates as a 25-kDa dimer. In humans, elevated GDF15 correlates with weight loss, and the administration of GDF15 to mice with obesity reduces body weight, at least in part, by decreasing food intake. The mechanisms through which GDF15 reduces body weight remain poorly understood, because the cognate receptor for GDF15 is unknown. Here we show that recombinant GDF15 induces weight loss in mice fed a high-fat diet and in nonhuman primates with spontaneous obesity. Furthermore, we find that GDF15 binds with high affinity to GDNF family receptor α-like (GFRAL), a distant relative of receptors for a distinct class of the TGF-β superfamily ligands. Gfral is expressed in neurons of the area postrema and nucleus of the solitary tract in mice and humans, and genetic deletion of the receptor abrogates the ability of GDF15 to decrease food intake and body weight in mice. In addition, diet-induced obesity and insulin resistance are exacerbated in GFRAL-deficient mice, suggesting a homeostatic role for this receptor in metabolism. Finally, we demonstrate that GDF15-induced cell signaling requires the interaction of GFRAL with the coreceptor RET. Our data identify GFRAL as a new regulator of body weight and as the bona fide receptor mediating the metabolic effects of GDF15, enabling a more comprehensive assessment of GDF15 as a potential pharmacotherapy for the treatment of obesity.

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Reduced chondrogenic and adipogenic activity of mesenchymal stem cells from patients with advanced osteoarthritis

Murphy

Dixon

Beck

et al. 2002

Arthritis & Rheumatism

472

392

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Activation of Peroxisome Proliferator-activated Receptor-γ Pathway Inhibits Osteoclast Differentiation

Mbalaviele¹,

Abu‐Amer²,

Meng³

et al. 2000

Journal of Biological Chemistry

103

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The nuclear receptor and transcription factor, peroxisome proliferator-activated receptor-␥ (PPAR-␥), regulates the activity of other transcription factors in the adipogenic differentiation and inflammatory response pathways. We examined the possible function of the PPAR-␥ pathway in osteoclast (Ocl) formation from CD34؉ hematopoietic stem cells (CD34 ؉ HSCs), using a co-culture system comprised of human mesenchymal stem cells (

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Development of thioquinazolinones, allosteric Chk1 kinase inhibitors

Converso

Hartingh

Garbaccio

et al. 2009

Bioorganic & Medicinal Chemistry Letters

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Effective siRNA delivery and target mRNA degradation using an amphipathic peptide to facilitate pH-dependent endosomal escape

Bartz¹,

Fan²,

Zhang³

et al. 2011

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Effective delivery of siRNA (small interfering RNA) into the cells requires the translocation of siRNA into the cytosol. One potential delivery strategy uses cell-delivery peptides that facilitate this step. In the present paper, we describe the characterization of an amphipathic peptide that mediates the uptake of non-covalently bound siRNA into cells and its subsequent release into the cytosol. Biophysical characterization of peptide and peptide/siRNA mixtures at neutral and lysosomal (acidic) pH suggested the formation of α-helical structure only in endosomes and lysosomes. Surprisingly, even though the peptide enhanced the uptake of siRNA into cells, no direct interaction between siRNA and peptide was observed at neutral pH by isothermal titration calorimetry. Importantly, we show that peptide-mediated siRNA uptake occurred through endocytosis and, by applying novel endosomal-escape assays and cell-fractionation techniques, we demonstrated a pH-dependent alteration in endosome and lysosome integrity and subsequent release of siRNA and other cargo into the cytosol. These results indicate a peptide-mediated siRNA delivery through a pH-dependent and conformation-specific interaction with cellular membranes and not with the cargo.

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5'-flanking motifs control cell-specific expression of trefoil factor genes (TFF).

et al. 1998

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Steve Beck

Multilineage Potential of Adult Human Mesenchymal Stem Cells

Chondrogenic Differentiation of Cultured Human Mesenchymal Stem Cells from Marrow

GFRAL is the receptor for GDF15 and the ligand promotes weight loss in mice and nonhuman primates

Reduced chondrogenic and adipogenic activity of mesenchymal stem cells from patients with advanced osteoarthritis

Activation of Peroxisome Proliferator-activated Receptor-γ Pathway Inhibits Osteoclast Differentiation

Development of thioquinazolinones, allosteric Chk1 kinase inhibitors

Effective siRNA delivery and target mRNA degradation using an amphipathic peptide to facilitate pH-dependent endosomal escape

5'-flanking motifs control cell-specific expression of trefoil factor genes (TFF).

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