Minocycline-induced disruption of the intestinal FXR/FGF15 axis impairs osteogenesis in mice
Matthew D. Carson, … , Caroline Westwater, Chad M. Novince
Matthew D. Carson, … , Caroline Westwater, Chad M. Novince
Published November 22, 2022
Citation Information: JCI Insight. 2023;8(1):e160578. https://doi.org/10.1172/jci.insight.160578.
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Research Article Bone biology Endocrinology

Minocycline-induced disruption of the intestinal FXR/FGF15 axis impairs osteogenesis in mice

Abstract

Antibiotic-induced shifts in the indigenous gut microbiota influence normal skeletal maturation. Current theory implies that gut microbiota actions on bone occur through a direct gut/bone signaling axis. However, our prior work supports that a gut/liver signaling axis contributes to gut microbiota effects on bone. Our purpose was to investigate the effects of minocycline, a systemic antibiotic treatment for adolescent acne, on pubertal/postpubertal skeletal maturation. Sex-matched specific pathogen–free (SPF) and germ-free (GF) C57BL/6T mice were administered a clinically relevant minocycline dose from age 6–12 weeks. Minocycline caused dysbiotic shifts in the gut bacteriome and impaired skeletal maturation in SPF mice but did not alter the skeletal phenotype in GF mice. Minocycline administration in SPF mice disrupted the intestinal farnesoid X receptor/fibroblast growth factor 15 axis, a gut/liver endocrine axis supporting systemic bile acid homeostasis. Minocycline-treated SPF mice had increased serum conjugated bile acids that were farnesoid X receptor (FXR) antagonists, suppressed osteoblast function, decreased bone mass, and impaired bone microarchitecture and fracture resistance. Stimulating osteoblasts with the serum bile acid profile from minocycline-treated SPF mice recapitulated the suppressed osteogenic phenotype found in vivo, which was mediated through attenuated FXR signaling. This work introduces bile acids as a potentially novel mediator of gut/liver signaling actions contributing to gut microbiota effects on bone.

Authors

Matthew D. Carson, Amy J. Warner, Jessica D. Hathaway-Schrader, Vincenza L. Geiser, Joseph Kim, Joy E. Gerasco, William D. Hill, John J. Lemasters, Alexander V. Alekseyenko, Yongren Wu, Hai Yao, J. Ignacio Aguirre, Caroline Westwater, Chad M. Novince

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Figure 2

Minocycline therapy during pubertal/postpubertal growth impairs skeletal maturation and suppresses osteoblastogenesis.

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Minocycline therapy during pubertal/postpubertal growth impairs skeletal...
Male C57BL/6T specific pathogen–free (SPF) mice were administered vehicle control (VEH) or minocycline (MINO) from age 6 to 12 weeks; euthanized at age 12 weeks. Quantitative real-time PCR (qRT-PCR) 16s rDNA analysis of colonic contents evaluating (A) bacterial load and (B) phyla; n = 5–6/group. (A) Bacterial load determined by normalizing the universal 16S gene to a bacterial DNA standard; quantification by the 2-ΔCT method. (B) Phylum outcomes determined by normalizing phyla genes to the universal 16S gene; quantification via the 2-ΔΔCT method. N.D., not detected. Micro-CT analysis of distal femur trabecular bone; n = 4–5/group: (C) representative images; (D) bone volume per tissue volume (BV/TV); (E) trabecular bone mineral density (Tb.BMD). Micro-CT analysis of proximal tibia trabecular bone; n = 5/group: (F) representative images; (G) BV/TV; (H) Tb.BMD. Histomorphometric analysis of tartrate-resistant acid phosphatase–positive (TRAP+) osteoclasts lining trabecular bone in the proximal tibia; n = 6/group: (I) representative images (original magnification, 200×); (J) number of osteoclasts per bone perimeter (N.Oc/B.Pm). (K) C-terminal telopeptides of type I collagen (CTX-I) serum ELISA; n = 4/group. Immunofluorescence analysis of osteoblasts lining trabecular bone in the proximal tibia. Osterix+ cuboidal bone lining cells were designated osteoblasts (red, osterix–rhodamine); n = 4/group: (L) representative images (original magnification, 200×), arrows indicate osteoblasts; (M) number of osteoblasts per bone perimeter (N.Ob/B.Pm). Dynamic histomorphometric analysis of trabecular bone formation indexes in L4 vertebra; calcein administered 5 and 2 days prior to sacrifice; n = 4/group: (N) representative images (original magnification, 200×); (O) mineral apposition rate (MAR); (P) bone formation rate (BFR). (Q) N-terminal propeptide of type 1 procollagen (P1NP) and osteocalcin (OCN) serum ELISAs; n = 4/group. (R) Tumor necrosis factor (TNF) and (S) insulin-like growth factor 1 (IGF-1) serum ELISAs; n = 4–5/group. Unpaired 2-tailed t test; reported as mean ± SEM; *P < 0.05 versus VEH, **P < 0.01 versus VEH.