Protein kinase G2 activation restores Wnt signaling and bone mass in glucocorticoid-induced osteoporosis in mice
Shyamsundar Pal China, … , Robert L. Sah, Renate B. Pilz
Shyamsundar Pal China, … , Robert L. Sah, Renate B. Pilz
Published June 17, 2024
Citation Information: JCI Insight. 2024;9(14):e175089. https://doi.org/10.1172/jci.insight.175089.
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Research Article Bone biology

Protein kinase G2 activation restores Wnt signaling and bone mass in glucocorticoid-induced osteoporosis in mice

Abstract

Osteoporotic fractures are a major complication of long-term glucocorticoid therapy. Glucocorticoids transiently increase bone resorption, but they predominantly inhibit bone formation and induce osteocyte apoptosis, leading to bone loss. Current treatments of glucocorticoid-induced osteoporosis aim mainly at reducing bone resorption and are, therefore, inadequate. We previously showed that signaling via the NO/cGMP/protein kinase G pathway plays a key role in skeletal homeostasis. Here, we show that pharmacological PKG activation with the guanylyl cyclase-1 activator cinaciguat or expression of a constitutively active, mutant PKG2R242Q restored proliferation, differentiation, and survival of primary mouse osteoblasts exposed to dexamethasone. Cinaciguat treatment of WT mice or osteoblast-specific expression of PKG2R242Q in transgenic mice prevented dexamethasone-induced loss of cortical bone mass and strength. These effects of cinaciguat and PKG2R242Q expression were due to preserved bone formation parameters and osteocyte survival. The basis for PKG2’s effects appeared to be through recovery of Wnt/β-catenin signaling, which was suppressed by glucocorticoids but critical for proliferation, differentiation, and survival of osteoblast-lineage cells. Cinaciguat reduced dexamethasone activation of osteoclasts, but this did not occur in the PKG2R242Q transgenic mice, suggesting a minor role in osteoprotection. We propose that existing PKG-targeting drugs could represent a novel therapeutic approach to prevent glucocorticoid-induced osteoporosis.

Authors

Shyamsundar Pal China, Hema Kalyanaraman, Shunhui Zhuang, Justin A. Cabriales, Robert L. Sah, Renate B. Pilz

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Figure 1

Cinaciguat prevents dexamethasone-induced inhibition of osteoblast proliferation, survival, and differentiation.

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Cinaciguat prevents dexamethasone-induced inhibition of osteoblast proli...
Primary osteoblasts isolated from WT C57BL/6Hsd mice were treated for the indicated time with vehicle (Veh, 0.1% DMSO, gray bars), dexamethasone (Dx, blue bars), dexamethasone + cinaciguat (Dx+Cin, orange bars), or cinaciguat alone (Cin, yellow bars) in medium containing 1% FBS, unless indicated otherwise. (A) Proliferation was assessed by BrdU uptake into S-phase nuclei, identified by immunofluorescence staining; cells were incubated for 24 hours in medium containing BrdU in the absence or presence of the drugs. Scale bar: 50 μm. (B) Apoptosis was assessed by immunostaining for cleaved caspase-3 after incubating cells for 18 hours in the absence or presence of the drugs. Sclae bar: 25 μm. (C) Metabolic activity was assessed by MTT reduction to formazan; cells were incubated for 48 hours in the absence or presence of the drugs, with MTT added for the last 4 hours. (D) Alkaline phosphatase (ALP) activity was assessed by staining with p-nitrophenolphosphate, after 7 days of culture of postconfluent cells in osteoblast differentiation medium containing 10% FBS, ascorbate, and β-glycerolphosphate, in the absence or presence of Dx and/or Cin. Activity was normalized to protein concentration, and the mean of vehicle-treated cells was assigned a value of 1. (E and F) Relative mRNA abundance was quantified by RT-qPCR after culture for 7 days in differentiation medium (E) or after 24 hours in growth medium (F); mRNA expression was normalized to the housekeeping gene hypoxanthine phosphoribosyltransferease (Hprt), and the mean ΔCt observed in WT cells was assigned a value of 1. Osteoblast-differentiation–related genes (E): Bglap, osteocalcin; Alpl, alkaline phosphatase; Sp7, osterix; Dmp1, dentin matrix acidic phophoprotein-1; Ppdn, podoplanin/GP38. Wnt-related genes (F): Wnt16, Wnt family member 16; Ctnnb1, β-catenin; Ccnd1, cyclin D; Ccn1, cellular communication network factor-1; Dkk1, dickkopf-1. The box-and-whisker box plots show medians and 25th to 75th percentiles of 5 independent experiments; data were analyzed by repeated-measures 1-way ANOVA with Geisser-Greenhouse correction (not assuming equal variances), followed by Holm-Šidák’s multiple-comparison test.