Parathyroid Hormone Mediates Hematopoietic Cell Expansion through Interleukin-6

Pirih, Flávia Q.; Michalski, Megan N.; Cho, Sun W; Koh, Amy J.; Berry, Janice E.; Ghaname, Eduardo; Kamarajan, Pachiyappan; Bonnelye, Edith; Ross, Charles W.; Kapila, Yvonne L.; Jurdic, Pierre; McCauley, Laurie K.

doi:10.1371/journal.pone.0013657

Cited by 36 publications

(32 citation statements)

References 54 publications

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“…IL-6 supports HPC proliferation, 28,29,58,59 and we have recently shown it to be a critical regulator of PTH actions in HPC expansion. 13 Because the calvarial organ is composed primarily of stromal osteoblastic cells, the predominant PPR-expressing cell population in the bone marrow, the more significantly increased PTH-induced IL-6 mRNA in Prg4 mutant calvaria suggests that a stromal osteoblastic cell is the target of PTH actions to modulate IL-6 and hematopoietic cells in the marrow of Prg4 mutant mice. Because PTH modulated other responsiveness genes similarly in both Prg4 mutant and wild-type mice, the heightened IL-6 regulation in Prg4 mutant mice points to the likelihood of a specific compensatory effect occurring with the loss of proteoglycan 4 activity.…”

Section: Discussionmentioning

confidence: 99%

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Proteoglycan 4, a Novel Immunomodulatory Factor, Regulates Parathyroid Hormone Actions on Hematopoietic Cells

Novince¹,

Koh²,

Michalski³

et al. 2011

The American Journal of Pathology

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Proteoglycan 4 (PRG4), a critical protective factor in articular joints, is implicated in hematopoietic progenitor cell expansion and megakaryopoiesis. PRG4 loss-of-function mutations result in camptodactyly-arthropathy-coxa varapericarditis (CACP) syndrome, which is characterized primarily by precocious joint failure. PRG4 was identified as a novel parathyroid hormone (PTH) responsiveness gene in osteoblastic cells in bone, and was investigated as a potential mediator of PTH actions on hematopoiesis. Sixteen-week-old Prg4 ؊/؊ mutant and Prg4 ؉/؉ wild-type mice were treated daily with intermittent PTH (residues 1-34) or vehicle for 6 weeks. At 22 weeks of age, Prg4 mutant mice had increased peripheral blood neutrophils and decreased marrow B220 ؉ (B-lymphocytic) cells, which were normalized by PTH. The PTH-induced increase in marrow Lin ؊ Sca-1 ؉ c-Kit ؉ (hematopoietic progenitor) cells was blunted in mutant mice. Basal and PTHstimulated stromal cell-derived factor-1 (SDF-1) was decreased in mutant mice, suggesting SDF-1 as a candidate regulator of proteoglycan 4 actions on hematopoiesis in vivo. PTH stimulation of IL-6 mRNA was greater in mutant than in wild-type calvaria and bone marrow, suggesting a compensatory mechanism in the PTH-induced increase in marrow hematopoietic progenitor cells. In summary, proteoglycan 4 is a novel PTH-responsive factor regulating immune cells and PTH actions on marrow hematopoietic progenitor cells.

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Section: Discussionmentioning

confidence: 99%

“…Further investigation revealed that intermittent PTH administration in normal mice supported hematopoiesis through actions on early HPCs. 2 Ex vivo and in vivo PTH studies by Pirih et al 13 using the global IL-6 knockout mouse model demonstrated that IL-6 supports PTH expansion of HPCs.…”

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confidence: 99%

Proteoglycan 4, a Novel Immunomodulatory Factor, Regulates Parathyroid Hormone Actions on Hematopoietic Cells

Novince¹,

Koh²,

Michalski³

et al. 2011

The American Journal of Pathology

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“…PTH also supports the hematopoietic system by stimulating osteoblastic production of several cytokines, including IL-6 (7,8), CXCL12 (9), MCP-1 (also known as CCL2) (10,11), and the soluble IL-6 receptor (sIL6R) (4). PTH improved the success rate of hematopoietic stem cell (HSC) engraftment in hematopoietic malignancies and autoimmune diseases via supporting HSC repopulation of the marrow (12)(13)(14). The dependence of hematopoietic lineage cells for PTH anabolic actions is unknown.…”

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confidence: 99%

Osteal macrophages support physiologic skeletal remodeling and anabolic actions of parathyroid hormone in bone

Cho

Soki

Koh

et al. 2014

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

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198

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Cellular subpopulations in the bone marrow play distinct and unexplored functions in skeletal homeostasis. This study delineated a unique role of osteal macrophages in bone and parathyroid hormone (PTH)-dependent bone anabolism using murine models of targeted myeloid-lineage cell ablation. Depletion of c-fms + myeloid lineage cells [via administration of AP20187 in the macrophage Fas-induced apoptosis (MAFIA) mouse model] reduced cortical and trabecular bone mass and attenuated PTHinduced trabecular bone anabolism, supporting the positive function of macrophages in bone homeostasis. Interestingly, using a clodronate liposome model with targeted depletion of mature phagocytic macrophages an opposite effect was found with increased trabecular bone mass and increased PTH-induced anabolism. Apoptotic cells were more numerous in MAFIA versus clodronate-treated mice and flow cytometric analyses of myeloid lineage cells in the bone marrow showed that MAFIA mice had reduced CD68 + cells, whereas clodronate liposome-treated mice had increased CD68 + and CD163 + cells. Clodronate liposomes increased efferocytosis (clearance of apoptotic cells) and gene expression associated with alternatively activated M2 macrophages as well as expression of genes associated with bone formation including Wnt3a, Wnt10b, and Tgfb1. Taken together, depletion of early lineage macrophages resulted in osteopenia with blunted effects of PTH anabolic actions, whereas depletion of differentiated macrophages promoted apoptotic cell clearance and transformed the bone marrow to an osteogenic environment with enhanced PTH anabolism. These data highlight a unique function for osteal macrophages in skeletal homeostasis.

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“…In mammals, endocrine signals can alter the tissue environment in the intestinal and hematopoietic SC niche (Calvi et al 2003) and can promote hematopoietic SC proliferation (Jung et al 2006;Adams et al 2007;Pirih et al 2010) and self-renewal (Nakada et al 2014). Additionally, endocrine hormones can regulate mammary gland development in part by directly altering mammary SC proliferation during puberty, pregnancy, and lactation (Asselin-Labat et al 2010;Joshi et al 2010) and epithelial cell fate during development (Wysolmerski et al 1998;Foley et al 2001).…”

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confidence: 99%

Calcineurin/Nfatc1 signaling links skin stem cell quiescence to hormonal signaling during pregnancy and lactation

et al. 2014

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In most tissues, the prevailing view is that stem cell (SC) niches are generated by signals from within the nearby tissue environment. Here, we define genetic changes altered in hair follicle (HF) SCs in mice treated with a potent SC activator, cyclosporine A (CSA), which inhibits the phosphatase calcineurin (CN) and the activity of the transcription factor nuclear factor of activated T cells c1 (Nfatc1). We show that CN/Nfatc1 regulates expression of prolactin receptor (Prlr) and that canonical activation of Prlr and its downstream signaling via Jak/Stat5 drives quiescence of HF SCs during pregnancy and lactation, when serum prolactin (Prl) levels are highly elevated. Using Prl injections and genetic/pharmacological loss-of-function experiments in mice, we show that Prl signaling stalls follicular SC activation through its activity in the skin epithelium. Our findings define a unique CN-Nfatc1-PrlrStat5 molecular circuitry that promotes persistent SC quiescence in the skin.

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Parathyroid Hormone Mediates Hematopoietic Cell Expansion through Interleukin-6

Cited by 36 publications

References 54 publications

Proteoglycan 4, a Novel Immunomodulatory Factor, Regulates Parathyroid Hormone Actions on Hematopoietic Cells

Proteoglycan 4, a Novel Immunomodulatory Factor, Regulates Parathyroid Hormone Actions on Hematopoietic Cells

Osteal macrophages support physiologic skeletal remodeling and anabolic actions of parathyroid hormone in bone

Calcineurin/Nfatc1 signaling links skin stem cell quiescence to hormonal signaling during pregnancy and lactation

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