Formation Markers Research Articles

Aberrant basement membrane production by HSCs in MASLD is attenuated by the bile acid analog INT-767.

The farnesoid X receptor (FXR) is a leading therapeutic target for metabolic dysfunction-associated steatohepatitis (MASH)-related fibrosis. INT-767, a potent FXR agonist, has shown promise in preclinical models. We aimed to define the mechanisms of INT-767 activity in experimental MASH and dissect cellular and molecular targets of FXR agonism in human disease. Leptin-deficient ob/ob mice were fed a MASH-inducing diet for 15 weeks before the study started. After baseline liver biopsy and stratification, mice were allocated to INT-767 (10mg/kg/d) or vehicle treatment for 8 weeks, either alongside an ongoing MASH diet (progression) or following conversion to normal chow (reversal). Effects on extracellular matrix remodeling were analyzed histologically and by RNA-sequencing. Serum fibrosis biomarkers were measured longitudinally. Human liver samples were investigated using bulk and single-cell RNA-sequencing, histology, and cell culture assays. INT-767 treatment was antifibrotic during MASH progression but not reversal, attenuating the accumulation of type I collagen and basement membrane proteins (type IV collagen and laminin). Circulating levels of PRO-C4, a type IV collagen formation marker, were reduced by INT-767 treatment and correlated with fibrosis. Expression of basement membrane constituents also correlated with fibrosis severity and adverse clinical outcomes in human MASH. Single-cell RNA-sequencing analysis of mouse and human livers, and immunofluorescence staining colocalized FXR and basement membrane expression to myofibroblasts within the fibrotic niche. Treatment of culture-activated primary human HSCs with INT-767 decreased expression of basement membrane components. These findings highlight the importance of basement membrane remodeling in MASH pathobiology and as a source of circulating biomarkers. Basement membrane deposition by activated HSCs is abrogated by INT-767 treatment and measurement of basement membrane molecules should be included when determining the therapeutic efficacy of FXR agonists.

Serum bone turnover markers were associated with bone mass in late prepuberty and early puberty.

To analyse the association between bone turnover markers and bone mass in children and young adults. This descriptive study followed 132 children (68 boys/64 girls) from Malmö, Sweden, as controls in a school-based intervention study (2000-2017). Height, weight, Tanner stage and bone mass were measured annually from ages 8 to 15 years, with follow-ups at 19 and 23 years of age. Serum markers for bone formation (bone-specific alkaline phosphatase (bALP), N-terminal propeptide of collagen type 1 (PINP), osteocalcin) and resorption (C-terminal telopeptide crosslinks (CTX), tartrate-resistant acid phosphatase (TRAcP 5b)) were collected at ages 9.9 ± 0.6 (mean ± SD) (n = 78), 12.0 ± 0.6 (n = 64), 14.9 ± 0.8 (n = 52), 18.8 ± 0.3 (n = 34) and 23.3 ± 0.6 years (n = 56). Compared to girls, boys showed higher bone turnover markers at ages 15, 19 and 23 years (all p < 0.05). At 10 years of age (Tanner stage 1 and 2), bALP and TRAcP 5b correlated with current bone mass (adjusted for age and sex), while bALP, PINP, osteocalcin and CTX correlated with bone mass change over the next 2 years (adjusted for age, sex and interval) (all p < 0.05). Bone turnover markers in early Tanner stages predicted both current bone mass and subsequent bone mass changes.

Comparison of efficacy of romosozumab with denosumab and risedronate in patients newly initiating glucocorticoid therapy

Abstract Context Wnt/β-catenin signaling pathway is one of the pathogenic mechanisms of glucocorticoid-induced osteoporosis (GIOP). We previously reported the potential of inhibiting sclerostin as a treatment for GIOP. Objective To compare the efficacy of romosozumab (ROMO), a monoclonal antibody against sclerostin, with existing therapy for GIOP. Methods Patients with rheumatic diseases who had not previously received treatment for osteoporosis and were newly treated with prednisolone 15 mg/day or more were randomly assigned to receive ROMO, denosumab (DMAb), or bisphosphonates (BP). After the initiation of GC therapy, we measured the bone mineral density (BMD) of the lumbar spine, femoral neck, and total hip every 6 months and bone turnover markers every 3 months for 12 months. Results Eleven patients were assigned to the ROMO group, 14 to the DMAb group, and 14 to the BP group. The median [25th to 75th percentile] percent change in lumbar spine BMD from baseline at 12 months was the greatest in the ROMO group (ROMO; 8.6 [3.1–12.4] %, DMAb; 3.3 [1.5–6.2] %, BP; -0.4 [-3.4–1.1] %). Among bone formation markers, serum levels of bone alkaline phosphatase were slightly elevated in the ROMO group, while those of N-terminal propeptide of type I procollagen and osteocalcin decreased in all three groups; however, these changes were smaller in the ROMO group. Serum levels of bone resorption markers and a urine bone quality marker decreased in all groups. Conclusion Treatment with ROMO significantly increased lumbar spine BMD in GC-treated patients, suggesting that ROMO is effective for GIOP.

Lentivirus-mediated Knockdown of Ski Improves Neurological Function After Spinal Cord Injury in Rats.

The glial scar that forms at the site of injury after spinal cord injury (SCI) is an important physical and biochemical barrier that prevents axonal regeneration and thus delays functional recovery. Ski is a multifunctional transcriptional co-regulator that is involved in a wide range of physiological and pathological processes in humans. Previous studies by our group found that Ski is significantly upregulated in the spinal cord after in vivo injury and in astrocytes after in vitro activation, suggesting that Ski may be a novel molecule regulating astrocyte activation after spinal cord injury. Further studies revealed that knockdown or overexpression intervention of Ski expression could significantly affect the proliferation and migration of activated astrocytes. To further verify the effect of knockdown of Ski expression in vivo on glial scar formation and neurological function after spinal cord injury, we prepared a rat spinal cord injury model using Allen's percussion method and used lentivirus as a vector to mediate the downregulation of Ski in the injured spinal cord. The results showed that knockdown of Ski expression after spinal cord injury significantly suppressed the expression of glial fibrillary acidic protein (Gfap) and vimentin, hallmark molecules of glial scarring, and increased the expression of neurofilament protein-200 (Nf-200) and growth-associated protein (Gap43), key molecules of axon regeneration, as well as Synaptophysin, a key molecule of synapse formation expression. In addition, knockdown of Ski after spinal cord injury also promoted the recovery of motor function. Taken together, these results suggest that Ski is able to inhibit the expression of key molecules of glial scar formation, and at the same time promotes the expression of molecules that are markers of axonal regeneration and synapse formation after spinal cord injury, making it a potential target for targeted therapy after spinal cord injury.

Sex hormone deficiency in male and female mice expressing the Alzheimer’s disease-associated risk-factor TREM2 R47H variant impacts the musculoskeletal system in a sex- and genotype-dependent manner

Abstract The R47H variant of the Triggering Receptor Expressed on Myeloid Cells 2 (TREM2) is a risk factor for Alzheimer’s disease in humans and leads to lower bone mass accrual in female but not male 12-month-old mice. To determine whether, as with aging, gonadectomy results in sex-specific musculoskeletal effects, gonad removal or SHAM surgery were performed in 4-month-old TREM2R47H/+ mice and wild type (WT) male and female littermates (n = 10-12/group), with sexes analyzed separately. Body weight was lower in males, but higher in females after gonadectomy, independently of their genotype. Gonadectomy also lead to decreased BMD in males at all sites and in whole body (total) and spine in female mice for both genotypes. Total and femur BMD was lower in gonadectomized male mice 6-weeks post-surgery, independently of the genotype. On the other hand, BMD was only lower in ovariectomized WT but not TREM2R47H/+ mice in all sites measured at this time point. Bone formation and resorption markers levels were not affected by orchiectomy, whereas CTX was higher 3 weeks after surgery and P1NP showed a tendency towards lower values at the 6 weeks timepoint only in ovariectomized WT mice. μCT analyses showed no differences resulting from gonadectomy in structural parameters in femoral cortical bone for either sex, but lower tissue mineral density in males of either genotype 6 weeks post-surgery. Nevertheless, biomechanical properties were overall lower in gonadectomized males of either genotype, and only for WT ovariectomized mice. Distal femur cancellous bone structure was also affected by gonadectomy in a genotype- and sex-dependent manner, with genotype-independent changes in males, and only in WT female mice. Thus, expression of the TREM2 R47H variant minimally alters the impact of gonadectomy in the musculoskeletal system in males, whereas it partially ameliorates the consequences of ovariectomy in female mice.

The Glucagon-Like Peptide-1 (GLP-1) Receptor Agonist Liraglutide Regulates Sirtuin-1-Mediated Neutrophil Extracellular Traps to Improve Diabetes-Induced Bone Metabolism Imbalance

Background: Diabetes mellitus (DM) is a chronic metabolic disorder that disrupts normal bone remodeling. Objectives: This study aimed to investigate how the glucagon-like peptide-1 (GLP-1) receptor agonist liraglutide (LIR) addresses bone metabolism imbalances induced by type-II diabetes. Methods: Type-II diabetic rat models were established through a single intraperitoneal injection of streptozotocin (STZ). Blood glucose levels were measured using a blood glucose meter, and insulin levels were assessed using an assay kit. Bone formation markers [alkaline phosphatase (ALP), osteocalcin (OCN), and procollagen I N-terminal propeptide (PINP)] and bone resorption markers [tartrate-resistant acid phosphatase (TRACP) and CTX-1] were monitored using assay kits. Bone marrow mesenchymal stem cells (BMSCs) were cultured in vitro under high-fat and high-glucose (HFHS) conditions to mimic diabetic bone metabolism dysregulation. Neutrophil extracellular traps (NETs) formation was examined through immunofluorescent staining and Western blot analysis. Results: Liraglutide was found to reduce STZ-induced NETs formation, as indicated by decreased expression of cit-H3 by 36.90% - 53.57%, myeloperoxidase (MPO) by 55.81% - 65.12%, NE by 53.95% - 65.17%, and PAD4 by 46.81% - 63.83%, alongside increased Sirtuin-1 (SIRT1) expression in femur tissue (70.71% - 91.19%). In vitro, LIR enhanced osteogenesis and inhibited apoptosis, effects that were partially reversed by SIRT1 knockdown. Additionally, SIRT1 knockdown partially restored LIR-induced reductions in oxidative stress, inflammation, and NETs formation. Conclusions: LIR mitigates diabetes-induced bone metabolism imbalance by inhibiting NETs formation through SIRT1 mediation.

Evaluation of the Tobacco Heating System (THS) During Closed Lower Limb Fracture Healing in Trauma Smokers’ Patients

BACKGROUND: Since 1976, it's been recognized that increased cigarette consumption correlates with decreased bone density, hindering fracture healing and leading to prolonged hospitalization. Although prior research has shown the relatively less harmful effects of electronic nicotine delivery systems (ENDS) on bone cells in lab settings and animal models, clinical evidence regarding their impact on fracture healing remains scarce. This study aims to investigate whether switching to a tobacco heating system (THS) post-orthopedic surgery improves outcomes for smoking patients during tibia or femur fracture healing over a 6-month period. METHODS: The study is a prospective, open-label, non-parallel, single-center trial involving 150 patients from a Level 1 Trauma center, Germany, diagnosed and treated for closed tibia, closed femur shaft, or closed distal femur fractures (according to AO/OTA: 41A2-41C3, 42A-C, 43A-C, 32A-C, 33A2-3, 33B-C). Participants will be categorized into three groups based on smoking behavior: smokers (no intervention), THS (participants switching from cigarettes to THS), and ex-smokers (participants abstaining from cigarettes or ENDS during the study). Clinical, radiological, and laboratory data will be collected during preoperative and postoperative assessments at 6, 12, 18, and 24 weeks. The primary outcome will be the serum concentration of N-terminal propeptide procollagen type 1, a bone formation marker. Secondary outcomes include bone metabolism, healing, immunological, blood count, and clinical parameters. Approval for the study protocol and consent declarations was obtained from the ethics committee of the medical faculty of Eberhard Karls University (724/2022BO1). DISCUSSION: The study results will provide evidence that switching to THS previous orthopedic intervention improves clinical outcomes during closed tibia or femur fracture healing in smokers’ patients due to reduced bone resorption rate consequent to the diminished activity of cigarette smoke-activated osteoclast.

Inhibition of Slit3/Robo1 signaling alleviates osteoarthritis in mice by reducing abnormal H-type vessel formation in subchondral bone

Background The aberrant H-type vessel formation was found to be intimately linked to subchondral bone remodeling during osteoarthritis (OA) development. Herein, we investigated the role and mechanism of osteoblast-secreted slit guidance ligand 3 (Slit3) in H-type vessel formation during OA progression. Methods Slit3 protein levels in subchondral bone samples of OA patients were detected. The isolated osteoblasts were transfected with Slit3 overexpression or knockdown plasmids, and their conditioned medium was cultured with endothelial progenitor cells (EPCs). The migration, tube formation, VEGF, and H-type vessel marker protein CD31 and endomucin (EMCN) levels in EPCs were accessed. The interactions between Slit3 and roundabout (Robo) family members were validated by Co-IP assay. Besides, whether the Slit3/Robo signaling affects the transforming growth factor β1 (TGF-β1)/SMADs pathway was determined. Additionally, sh-Slit3 was injected into OA mice, followed by the detection of articular cartilage degradation, subchondral bone remodeling, and H-type vessel formation. Results Slit3 was upregulated in subchondral bone tissues of OA patients. Slit3 overexpression in osteoblasts intensified the migration and H-type vessel formation of EPCs, while Slit3 knockdown showed the opposite results. Slit3 overexpression enhanced Robo1 protein level. Robo1 knockdown abrogated Slit3-mediated migration and H-type vessel formation in EPCs. Slit3 activated the TGF-β1/SMADs pathway in EPCs, which might be associated with H-type vessel formation in EPCs. Additionally, Slit3 silencing restrained articular cartilage degradation, aberrant subchondral bone formation, and H-type vessel formation in OA mice. Conclusion Inhibition of Slit3/Robo1 signaling alleviates osteoarthritis in mice by reducing abnormal H-type vessel formation in the subchondral bone.

Impaired Development of Collagen Antibody-Induced Arthritis in Rab44-Deficient Mice.

Rheumatoid arthritis (RA) is an autoimmune disease characterized by immune cell-mediated joint inflammation and subsequent osteoclast-dependent bone destruction. Collagen antibody-induced arthritis (CAIA) is a useful mouse model for examining the inflammatory mechanisms in human RA. Previously, we identified the novel gene Rab44, which is a member of the large Rab GTPase family and is highly expressed in immune-related cells and osteoclasts. In this study, we induced CAIA in Rab44-knockout (KO) mice to investigate the effects of Rab44 on inflammation, cell filtration, and bone destruction. Compared with wild-type (WT) mice, Rab44-KO mice showed reduced inflammation in arthritis under CAIA-inducing conditions. Rab44-KO CAIA mice exhibited reduced cell filtration in the radiocarpal joints. Consistent with these findings, Rab44-KO CAIA mice showed decreased mRNA levels of arthritis-related marker genes including genes for inflammation, cartilage turnover, bone formation, and bone absorption markers. Rab44-KO CAIA mice exhibited predominant infiltration of M2-type macrophages at inflammatory sites and reduced bone loss compared to WT CAIA mice. These results indicate that Rab44 deficiency reduces the progression of inflammation in CAIA in mice.

BCAR1 facilitates the survival of lung adenocarcinoma cells by augmenting the unfolded protein response, autophagy, and the formation of vasculogenic mimicry

BackgroundOur objective was to elucidate the pivotal roles of BCAR1 in unfolded protein response (UPR), autophagy and vasculogenic mimicry (VM) formation, processes that essential for the metastasis of lung adenocarcinoma (LUAD) cells. MethodsThe morphological assessment of endoplasmic reticulum (ER) status and autolysosomes in H1975 and H1299 LUAD cells following BCAR1 knockout (KO) was conducted using transmission electron microscope. The expression of markers and cellular functions related to the UPR, autophagy, and VM formation were examined in LUAD cells tissues. Additionally, proteomic analysis of LUAD cells was performed via mass spectrometry, and the pertinent signaling pathways were analyzed using bioinformatics tools. ResultsBCAR1-KO inhibited autophagy and UPR induced triggered starvation in LUAD cells. Cleaved-ATF6a-mediated UPR and subsequent autophagy, enhanced by BCAR1, were confirmed using the UPR stimulator and blocker. High BCAR1 expression, along with elevated UPR and autophagy, predicts poor prognosis in LUAD patients. BCAR1-KO reduced tube formation and VM markers expressions in LUAD cells. Additionally, BCAR1 expression positively correlated with VM formation in BALB/c-nu mice xenografts and LUAD patient tissues. ConclusionBCAR1 promotes LUAD metastasis by enhancing cancer cell survival in nutrient-poor environments through ATF6-mediated UPR activation and autophagy. As BCAR1 induces VM formation, metastatic lesions eventually colonize. Thus, BCAR1 is a promising anti-metastasis target.

Association of bone turnover markers and craving reduction in patients with alcohol use disorder during withdrawal: Exploring the role of bone-brain axis.

Alcohol use disorder (AUD) is associated with imbalanced bone turnover and psychological symptoms, but the relationship between bone and brain remains unclear. The study analyzed serum levels of a bone formation marker, procollagen type 1 N-terminal propeptide (P1NP), and bone resorption marker, C-terminal telopeptide of type I collagen (CTX-1), in AUD patients before and after 2 weeks of alcohol withdrawal and investigated their correlation with psychological symptoms. Ninety patients with AUD and 117 healthy controls were recruited. P1NP and CTX-1 levels were measured using Enzyme-Linked Immunosorbent Assay. The Penn Alcohol Craving Scale (PACS), Beck Depression Inventory (BDI), and Beck Anxiety Inventory (BAI) were assessed in the AUD group at baseline, week 1, and week 2 of withdrawal. Baseline CTX-1 levels, along with the CTX-1/P1NP and P1NP/CTX-1 ratio, were higher in the AUD group than controls. Over the 2-week withdrawal, PACS, BDI, and BAI scores demonstrated significant reductions. P1NP (p < 0.001) and P1NP/CTX-1 ratio increased (p < 0.001), while CTX-1/P1NP ratio decreased (p < 0.001), indicating a propensity toward bone formation. Univariate analysis revealed that reductions in PACS, BDI, and BAI scores during withdrawal correlated with increased P1NP levels and decreased CTX-1/P1NP ratios. However, multivariate analysis indicated that only PACS score reductions correlated with these changes. Bone metabolism shifted toward increased bone formation and decreased bone resorption during 2-week alcohol withdrawal. The correlation between improvements in bone turnover markers and reduction in craving scores during withdrawal supports the concept of the bone-brain axis.

Perturbation Patterns of Bone Metabolism Secondary to COVID-19 Among Nigerian Healthcare Workers

&amp;lt;i&amp;gt;Background&amp;lt;/i&amp;gt;: Severe acute respiratory coronavirus-2 (SARS-CoV-2), the etiologic agent of coronavirus disease of 2019 (COVID-19) is known to affect several organ systems. However, the disease’s influence on bone metabolism is poorly characterized especially among native Nigerians. Consequently, the current study explored the effect of the disease on bone metabolism among Nigerian healthcare workers (HCWs). &amp;lt;i&amp;gt;Methods:&amp;lt;/i&amp;gt; This was a prospective longitudinal study conducted in the Department of Chemical Pathology of the Rivers State University Teaching Hospital among unvaccinated HCWs in Rivers State, Southern Nigeria. Eligible HCWs (n=96) were followed up from when they unwittingly had contact with SARS-CoV-2 infected/COVID-19 patients until they developed symptomatic RT-PCR-confirmed COVID-19. Demographic, anthropometric, clinical, and laboratory data were obtained before and at diagnosis/confirmation of COVID-19 among the eligible HCWs. Statistical analysis was done using descriptive/inferential statistics at a p-value of &amp;lt;0.05. &amp;lt;i&amp;gt;Results&amp;lt;/i&amp;gt;: At COVID-19 diagnosis, the HCWs had increased levels of inflammatory markers (procalcitonin, C-reactive protein, and D-dimer), raised bone resorption marker (s-CTX), but reduced bone formation marker (s-PINP) compared to the pre-COVID-19 parameters (p&amp;lt;0.001). These cardinal biochemical findings were more prominent among those with severe disease variant than those with non-severe disease variant (p&amp;lt;0.001). In addition, a negative correlation pattern was observed between these inflammatory markers and the bone formation marker, however, a positive correlation was observed between the inflammatory markers and the bone resorption marker (p&amp;lt;0.001). &amp;lt;i&amp;gt;Conclusion: &amp;lt;/i&amp;gt;The current finding indicates perturbation of bone metabolism, associated with increased bone resorption pattern, secondary to COVID-19 among the studied population. Hence, it is highly recommended that the evaluation of bone metabolism status be incorporated into the management protocols for COVID-19.

Protective effects of electroacupuncture on senile osteoporosis in rats.

The objectives were to explore the protective effects of electroacupuncture (EA) on senile osteoporosis in aged rats and investigate the underlying mechanisms. This study included aged (24-month-old; n = 16) and young (3-month-old; n = 8) male Sprague-Dawley rats. Aged rats were further randomized 1:1 to an aged control group (Aged; n = 8) and an EA treatment group (EA; n = 8). The 3-month-old rats served as young controls (Young). EA rats received EA at ST36, SP6, GB34 and SP10 bilaterally for 30 min a day, 5 days a week, for 8 weeks. EA significantly increased serum markers of bone formation in Aged rats. There were no significant differences in serum markers of bone resorption between EA and Aged rats. Deterioration of bone mineral density (BMD) and trabecular bone architecture was observed in the Aged group, while EA significantly increased BMD of the left femur and L5 vertebral body in aged rats. Aging-induced deterioration of trabecular bone architecture was partially reversed in EA rats. Runx2 and Osterix mRNA and protein levels were significantly increased and peroxisome proliferator-activated receptor (PPAR)γ was significantly decreased in bone marrow cells in EA compared with Aged groups. The mRNA and protein levels of core constituents of the Wnt/β-catenin signaling pathway (Wnt3a, low-density lipoprotein receptor-related protein (LRP)5 and β-catenin) were significantly increased and Dickkopf 1 was significantly decreased in bone marrow cells in EA compared with Aged groups. EA may prevent bone loss and deterioration in aged rats by promoting osteogenesis via a mechanism that may involve activation of the Wnt/β-catenin signaling pathway. EA may represent a therapeutic option for senile osteoporosis.

Osteoporosis and Normocalcemic Primary Hyperparathyroidism (Conservatively or Surgically Managed).

Asymptomatic primary hyperparathyroidism (PHPT) involves 80-90% of the parathyroid tumor-associated cases of PHPT in the modern medical era, while normocalcemic PHPT (NPHPT) has a prevalence of 0.1-11%. We aimed to analyze the bone status and mineral metabolism in NPHPT amid conservative or surgical management. In this narrative review, we searched PubMed (between January 2020 and July 2024) via different keywords. Fourteen studies from the final analysis (388 patients with NPHPT; 1188 with PHPT; and 803 controls) showed that mean serum calcium levels varied between 2.57 and 2.26 mmol/L in NPHPT. Ten studies identified a similar 24 h urinary calcium in NPHPT versus hypercalcemic PHPT (HPHPT). Except for one study, a mandatory vitamin D analysis was performed, but the 25-hydroxyvitamin D cut-offs varied. Osteoporosis (n = 6 studies; N = 172 with NPHPT) was confirmed in 41.7-100% of NPHPT subjects. In surgery candidates, this rate might be overestimated. A DXA analysis was performed in eight studies (235 subjects with NPHPT, and 455 patients with HPHPT); two studies identified a lower BMD in HPHPT < NPHPT, but the results were not homogenous. A single study analyzed the TBS and found similar results in NPHPT. The prevalence of fractures (n = 9) varied between 7.4% and 42.8% in NPHPT. Bone turnover markers (N = 262 patients, n = 8 studies) showed lower bone formation markers in NPHPT versus PHPT (n = 3). Two studies analyzed the BMD and bone turnover markers following parathyroidectomy (161 patients, including 30 patients with NPHPT; mean ages over 60 years). To conclude, given the wide spectrum of complications associated with PHPT, an early diagnosis and proper management is essential. A more extensive screening in patients with osteoporosis and kidney stones might lead to the discovery of NPHPT, a more recently described form of PHPT. While it is still unclear whether NPHPT is an early stage of HPHPT or a separate entity, recent findings show similar osteoporosis and fracture occurrence, and an improvement in bone metabolism, following parathyroidectomy. More extensive prospective studies are crucial to understand the natural course of the disease, to reach a consensus regarding parathyroidectomy indications and surgery candidates' selection, and to ensure proper personalized management for these patients. With the evolving diagnosis methods, PHPT has become a condition with a changing clinical presentation, which now requires modern evaluation and treatment approaches.

Circulating Extracellular Matrix Products as Indicators of Disease Burden and Predictors of Disease Course in Ulcerative Colitis.

Ulcerative colitis (UC) is characterized by recurrent inflammation and challenging disease monitoring, with invasive endoscopy as the primary diagnostic tool despite the inadequacy of standard noninvasive biomarkers. This study evaluates serum extracellular matrix (ECM) fragments, which reflect the remodeling of mucosa and submucosa, as potential indicators of disease burden and treatment efficacy. We aim to determine whether serum ECM levels correlate with the extent and severity and predict treatment response. We conducted a prospective study comparing serum ECM formation (PRO-C3, PRO-C7, PRO-C11, PRO-C22), turnover (PRO-C4), and degradation markers (C1M, C3M, C4M, C7M) at Weeks 0, 12, and 24 in 49 UC patients and 50 healthy controls measured by enzyme-linked immunosorbent assay. ECM biomarkers, notably PRO-C11, differentiated UC patients from controls (area under the curve [AUC] 0.77), and PRO-C3 predicted endoscopic treatment response vs nonresponse (AUC 0.74). C7M separated moderate from severe disease in endoscopy (AUC 0.74) as well as mild from severe disease (AUC 0.84), as did the ratio C7M/PRO-C7 (AUC 0.82). Combining new and conventional markers, including hemoglobin, C-reactive protein, PRO-C3, and PRO-C22, achieved a combined AUC of 0.84 for predicting 24-week endoscopic response, adding index endoscopic activity increased the AUC to 0.92 compared to an AUC of 0.84 for endoscopy alone. Soluble ECM fragments reflect endoscopic disease severity and extent and are also predictive of therapeutic efficacy. They may as well reflect degenerative aspects of UC and may as such be future therapeutic targets aimed at prevention of intestinal damage.

Preventing osteoporotic bone loss in mice by promoting balanced bone remodeling through M-CSFRGD, a dual antagonist to c-FMS and αvβ3 receptors

Osteoporosis is a common, age-related disease caused by imbalanced bone remodeling. Current treatments either shut down bone resorption or robustly stimulate bone formation. Here, we describe a novel compound that inhibits osteoclast activity without causing apparent disruptions to bone formation by targeting both c-FMS (i.e., osteoclast differentiation) and αvβ3 integrin (i.e., osteoclastic bone resorption) receptors. We show that human serum albumin (HSA)-conjugated M-CSFRGD protein (M-CSFRGD-HSA) effectively inhibits the activity of both receptors, with a three-fold higher serum half-life compared to the unconjugated M-CSFRGD. We then treated ovariectomized mice with different doses of M-CSFRGD-HSA, alendronate, or a monospecific control protein. The bispecific M-CSFRGD-HSA was superior to a monospecific control in alleviating bone loss and reducing osteoclast distribution and function. M-CSFRGD-HSA and alendronate effectively prevented ovariectomy-induced bone loss, but M-CSFRGD-HSA had a milder inhibitory effect on osteoclast distribution and activity. Moreover, alendronate halted bone formation, while M-CSFRGD-HSA-treated mice showed an increased level of serum amino-terminal propeptide of type I collagen, a bone formation marker. Our data indicate that the mild reduction in osteoclast activity facilitated by the bispecific M-CSFRGD-HSA allows the maintenance of certain levels of bone formation and may be superior to treatments that induce osteoclast depletion.

Expression of osteopontin and osteocalcin in Osteoblast cells exposed to a combination of polymethylmethacrylate (PMMA) and hydroxyapatite (HAp): A prospective observational study.

The success of implant placement will depend on the ability of the implant material to integrate with the surrounding tissue. Polymethylmethacrylate (PMMA) has been used as an implant material, but it has several fallback properties in its interaction with bone tissue. The addition of hydroxyapatite (HAp) to PMMA is expected to produce reinforced bioceramic polymers with better mechanical and biological properties. The purpose of this study was to evaluate the expression of osteopontin and osteocalcin in cultured osteoblasts when exposed to two implant candidate materials: PMMA-HApGMP, derived from bovine bone and processed under Good Manufacturing Practice by a Tissue Bank, and PMMA-HApBBK, sourced from limestone (CaCO3) and processed by Balai Besar Keramik. Twenty-four fetal rat calvariae osteoblast cell cultures were randomly divided into 6 groups: 7- and 14-day control group, 7 and 14 days PMMA-HApGMP group, 7 and 14 days PMMA-HApBBK group. The expression of osteopontin and osteocalcin was seen by immunocytochemical examination. The results showed that the average expression of osteopontin and osteocalcin in the treatment group on the 7th and 14th days was higher than the control group. The expression of osteopontin and osteocalcin in the PMMA-HApGMP group increased significantly (P < .05) on day 14. The PMMA-HAp combination material can accelerate the process of osteoblast differentiation which is characterized by an increase in osteopontin and osteocalcin which are markers of bone formation. This will support in increasing osseointegration.

Improvement of Bone Metabolism in Prepubertal Girls with Turner Syndrome Following Long-term Pegylated Growth Hormone Treatment.

The study aims to assess the improvement in bone metabolism in prepubertal girls with Turner Syndrome (TS) after long-term polyethylene glycol recombinant human Growth Hormone (PEG-rhGH) treatment. A 12-month longitudinal prospective study was conducted with 28 prepubertal girls diagnosed with TS. Participants were divided into two groups: 18 received PEG-rhGH therapy (0.1-0.25 mg/kg/week) and 10 did not. Anthropometric measurements, bone turnover markers (BTMs), and serum levels of IGF-1, calcium, and phosphate were collected at baseline and after 12 months. BTMs included bone alkaline phosphatase (BAP), Type I collagen propeptide (CICP), Type I collagen telopeptide (CTX), and fibroblast growth factor 23 (FGF23). After 12 months of PEG-rhGH therapy, the treatment group showed significant increases in growth velocity (GV) and height standard deviation scores (HtSDS). Serum IGF-1 levels increased rapidly within one month and remained elevated. BTMs indicated enhanced bone formation, significantly increasing BAP and CICP, while CTX levels remained low. FGF23 levels initially rose slightly but declined below baseline by 12 months. Elevated blood phosphate levels were observed. PEG-rhGH therapy in children with TS significantly improves linear growth and enhances bone formation markers, benefiting bone metabolism.

BIOCHEMICAL PARAMETERS OF THE BLOOD OF RATS OF DIFFERENT AGES AFTER FILLING THE METAPHYSEAL DEFECT OF THE FEMUR WITH ALLOGENEIC BONE IMPLANTS WITH LOCAL ADMINISTRATION OF BLOOD PLASMA ENRICHED WITH PLATELETS

A promising method of regenerative medicine is the saturation of allografts with platelet-rich plasma (PRP). Objective. To evaluate the course of metabolic processes after filling a hole defect in the distal metaphysis of the femur with allogeneic bone implants in conditions of additional local administration of allogeneic PRP. Methods. In the model of a hole defect in white rats with the filling of the defect with an allograft, as well as with additional local stimulation of PRP on the 7th day; on the 3rd and 7th days and on the 1st, 3rd and 7th days in blood serum, the content of glycoproteins (GP), chondroitin sulfates (CST), total protein (TP), calcium (Ca), activity alkaline phosphatase (AlP) and acid phosphatase (AcP). The results. 14 day. In the 3-month rats, under one stimulation, an increase in TP and Ca, a decrease in AcP was observed, with two stimulations there was a 1.11 times smaller GP, 1.13 times larger TP and 1.43 times Ca compared to those in rats without stimulation. During three stimulations, the GP was 1.24 times lower than that in animals without stimulation. In the 12-month rats in comparison with the data of rats without stimulation, 1.15 times higher GP, Ca, AlP activity, and 1.44 times more AcP were noted. 28 days of the 3-month rats for one injection exceeded the data of animals without stimulation by 1.34 times for GP, and were inferior to them by 1.31 times for AcP. In the 12-month rats, compared to these animals without stimulation, with three injections, a 1.19 times greater TP was noted. 90 d. In the 3-month rats for one injection showed 1.24 times less CST with 1.28 times lower AlP compared to data from rats without stimulation. 12-month rats exceeded the data of the group without stimulation by 1.43 times for AlP. Conclusions. In rats with an alloimplant (especially at 12 months), an increase in connective tissue formation markers and a decrease in LF activity were observed. Filling the defect with an alloimplant led to an increase in inflammation indicators and an increase in markers of bone tissue formation.

The Effects of the AGE Inhibitor Pyridoxamine on Bone in Older Women with Type 2 Diabetes: a Randomized Clinical Trial.

Type 2 diabetes (T2D) patients have reduced bone turnover and increased fractures. Advanced glycation endproducts (AGEs) impair osteoblasts and are implicated in diabetic fractures. Pyridoxamine (PM) is a vitamin B6 metabolite which inhibits formation of AGEs. We hypothesized that PM treatment in older T2D patients, by inhibiting AGEs, would increase bone formation. Double-blind RCT. Academic center. Older T2D women (n=55). Oral PM 200 mg twice daily for one year. The primary outcome was the change in the bone formation marker P1NP. Other outcomes were changes in bone resorption, bone mineral density (BMD), HbA1c and skin autofluorescence (SAF), and in a bone biopsy sub-group, the correlation between bone fluorescent AGEs (fAGEs) and SAF. P1NP increased 23.0% with PM (95% CI: 9, 37; within-group p=0.028) vs. 4.1% with placebo (-9, 17; within-group p=0.576; between-groups p=0.056). BMD increased at the femoral neck (PM: 2.6±5% vs. placebo: -0.9±4%; between-groups p=0.007). Bone resorption markers and SAF did not change. HbA1c decreased (PM: -0.38 ± 0.7% vs. placebo: 0.05 ± 1.7%; between-groups p =0.04). Within the PM group, the HbA1c change correlated inversely with the % P1NP change (r =-0.50, p=0.034). Cortical bone biopsy fAGEs correlated with SAF (r=0.86, p=0.001). Adverse events were similar between groups. PM tended to increase P1NP in older T2D women, as well as increasing bone density and reducing HbA1c. Further studies are needed to investigate the potential of PM as a disease mechanism-directed approach to reduce fractures in T2D.