Allogeneic mesenchymal stem cells transplantation in treatment of multiple sclerosis

Multiple sclerosis (MS) is a chronic autoimmune disorder of the central nervous system. Umbilical cord derived mesenchymal stem cells are immunosuppressive. We transplanted mesenchymal stem cells in a patient with refractory progressive MS, and the disease course was stabilized after the transplantation. We postulate that mesenchymal stem cells have a potent immunosuppressive effect in vivo.

Clock mutant promotes osteoarthritis by inhibiting the acetylation of NFκB

OBJECTIVES

To examine the effect of the circadian gene Clock on posttranscriptional function and pro-inflammatory mechanisms in osteoarthritis (OA).

METHODS

The cartilage from Clock mutant mice was assessed using histology, (OA) score, and real-time polymerase chain reaction (PCR) quantification of key pro-inflammatory genes. Nuclear factor kappa-light-chain-enhancer of activated B cells (NFκB) translocation, posttranslational state and expression levels during day and night conditions were assessed using immunoblot and IP. The regulation of transcription by Clock in cartilage tissue was assessed by using chromatin immunoprecipitation (ChIP) and luciferase assays. Total acetylation level and pattern over 24 h were quantified using immunoblot and real-time PCR. Finally, the effects of exogenous Clock nanoparticle treatment were quantified by histology and immunoblot.

RESULTS

The Clock mutation significantly promoted the degradation of cartilage and the expression of the key pro-inflammatory mediators, IL-1β, IL-6 and MCP-1. The Clock mutation significantly promoted NFκB nuclear translocation. The circadian protein CLOCK positively regulates NFκB at the transcriptional level by binding the E-box domain. The Clock mutation significantly inhibited the total lysine acetylation level in cartilage and inhibited NFκB acetylation at the Lys310 residue but promoted phosphorylation at the Ser276 residue. The forced expression of Clock in vivo inhibited NFκB activation by increasing acetylation and decreasing phosphorylation levels and by decreasing cartilage damage and inflammation.

CONCLUSIONS

This study demonstrates the mutation of Clock promotes inflammatory activity by mediating the posttranscriptional regulation of NFκB in OA pathogenesis.

CLOCK promotes 3T3-L1 cell proliferation via Wnt signaling

Circadian genes control most of the physiological functions including cell cycle. Cell proliferation is a critical factor in the differentiation of progenitor cells. However, the role of Clock gene in the regulation of cell cycle via wingless-type (Wnt) pathway and the relationship between Clock and adipogenesis are unclear. We found that the circadian locomotor output cycles kaput (Clock) regulated the proliferation and the adipogenesis of 3T3-L1 preadipocytes. We found that Clock attenuation inhibited the viability of 3T3-L1 preadipocytes in the cell counting kit 8. The expression of c-Myc and Cyclin D1 decreased dramatically in 3T3-L1 when Clock was silenced with short interfering RNA and was also decreased in fat tissue and adipose tissue-derived stem cells of Clock(Δ19) mice. Clock directly controls the expression of the components of Wnt signal transduction pathway, which was verified by serum shock, chromatin immunoprecipitation, Western blot, and quantitative real-time polymerase chain reaction (qRT-PCR). Furthermore, IWR-1, a Wnt signal pathway inhibitor, inhibited the cell cycle promotion by CLOCK, which was detected by cell viability assay, flow cytometry, and qRT-PCR. Therefore, CLOCK transcription control of Wnt signaling promotes cell cycle progression in 3T3-L1 preadipocytes. Clock inhibited the adipogenesis on day 2 in 3T3-L1 cells via Oil Red O staining and qRT-PCR detection and probably related to cellular differentiation. These data provide evidence that the circadian gene Clock regulates the proliferation of preadipocytes and affects adipogenesis. © 2016 IUBMB Life, 68(7):557-568, 2016.

Engeletin Protects Against TNF-α-Induced Apoptosis and Reactive Oxygen Species Generation in Chondrocytes and Alleviates Osteoarthritis in vivo

PURPOSE

Osteoarthritis (OA) is a progressive disease characterized by pain and impaired joint functions. Engeletin is a natural compound with anti-inflammatory and antioxidant effects on other diseases, but the effect of engeletin on OA has not been evaluated. This study aimed to elucidate the protective effect of engeletin on cartilage and the underlying mechanisms.

METHODS

Chondrocytes were isolated from rat knee cartilage, and TNF-α was used to simulate OA in vitro. After treatment with engeletin, the expression of extracellular matrix (ECM) components (collagen II and aggrecan) and matrix catabolic enzymes (MMP9 and MMP3) was determined by Western blotting and qPCR. Chondrocyte apoptosis was evaluated using Annexin V-FITC/PI and flow cytometry. Apoptosis-related proteins (Bax, Bcl-2, and cleaved caspase-3) were evaluated by Western blotting. The mitochondrial membrane potential of chondrocytes was measured with JC-1, and intracellular reactive oxygen species (ROS) levels were determined with DCFH-DA. Changes in signaling pathways (Nrf2, NF-κB and MAPK) were evaluated by Western blotting. In vivo, anterior cruciate ligament transection (ACLT) was used to induce the rat OA model, and engeletin was administered intraarticularly. The therapeutic effect of engeletin was analyzed by histopathological analysis.

RESULTS

Pretreatment with engeletin alleviated TNF-α-induced inhibition of ECM components (collagen II and aggrecan) and upregulation of matrix catabolic enzymes (MMP9 and MMP3). Engeletin ameliorated chondrocyte apoptosis by inhibiting Bax expression and upregulating Bcl-2 expression. Engeletin maintained the mitochondrial membrane potential of chondrocytes and scavenged intracellular ROS by activating the Nrf2 pathway. The NF-κB and MAPK pathways were inhibited by treatment with engeletin. In vivo, ACLT-induced knee OA in rats was alleviated by intraarticular injection of engeletin.

CONCLUSION

Engeletin ameliorated OA in vitro and in vivo. It may be a potential therapeutic drug for OA.

The Circadian Gene Clock Regulates Bone Formation Via PDIA3

The expression patterns of clock-controlled genes (ccgs) are regulated by circadian rhythm, which is a major regulatory and physiological mechanism tied to the solar day. Disruptions in circadian rhythm contribute to the development of cardiovascular diseases, cancer, metabolic syndromes, and aging. It has been reported that bone remodeling is also regulated by circadian rhythm. However, the molecular mechanism by which the circadian gene Clock regulates bone remodeling has yet to be elucidated. Here, we show that Clock mutant mice exhibit a significant reduction in bone density as well as increased apoptosis. Protein disulfide isomerase family A member 3 (PDIA3) is a 1,25-dihydroxy-vitamin D3 [1α,25(OH)2D3] receptor that can regulate bone formation and apoptosis. Using luciferase and ChIP assays, we confirmed that Pdia3 is a ccg. Clock activates Pdia3 transcription by binding the E-box promoter, and transcription is decreased in ClockΔ19 mutant mice. Forced expression of Pdia3 or of Clock completely rescues the osteogenic disorders found in the mutant background and inhibits apoptosis in vivo and in vitro. Furthermore, ablation of PDIA3 via RNA interference completely blocks the compensatory effect of forced expression of Clock in osteoblasts. Our results demonstrate that the core circadian gene Clock regulates bone formation via transcriptional control of 1,2,5(OH)2D3 receptor PDIA3. © 2016 American Society for Bone and Mineral Research.

Clock mediates liver senescence by controlling ER stress

Accumulated evidence indicates that circadian genes regulate cell damage and senescence in most mammals. Endoplasmic reticulum (ER) stress and reactive oxygen species (ROS) regulate longevity in many organisms. However, the specific mechanisms of the relationship between the circadian clock and the two stress processes in organisms are poorly understood. Here, we show that Clock-mediated Pdia3 expression is required to sustain reactive oxidative reagents and ER stress. First, ER stress and ROS are strongly activated in the liver tissue of Clock∆19 mutant mice, which exhibit a significant aging phenotype. Next, transcription of Pdia3 is mediated by the circadian gene Clock, but this process is affected by the Clock∆19 mutant due to the low affinity of the E-box motif in the promoter. Finally, ablation of Pdia3 with siRNA causes ER stress with sustained phosphorylation of PERK and eIF1α, resulting in exaggerated up-regulation of UPR target genes and increased apoptosis as well as ROS. Moreover, the combined effects result in an imbalance of cell homeostasis and ultimately lead to cell damage and senescence. Taken together, this study identified the circadian gene Clock as a regulator of ER stress and senescence, which will provide a reference for the clinical prevention of aging.

Role of circadian gene Clock during differentiation of mouse pluripotent stem cells

Biological rhythms controlled by the circadian clock are absent in embryonic stem cells (ESCs). However, they start to develop during the differentiation of pluripotent ESCs to downstream cells. Conversely, biological rhythms in adult somatic cells disappear when they are reprogrammed into induced pluripotent stem cells (iPSCs). These studies indicated that the development of biological rhythms in ESCs might be closely associated with the maintenance and differentiation of ESCs. The core circadian gene Clock is essential for regulation of biological rhythms. Its role in the development of biological rhythms of ESCs is totally unknown. Here, we used CRISPR/CAS9-mediated genetic editing techniques, to completely knock out the Clock expression in mouse ESCs. By AP, teratoma formation, quantitative real-time PCR and Immunofluorescent staining, we did not find any difference between Clock knockout mESCs and wild type mESCs in morphology and pluripotent capability under the pluripotent state. In brief, these data indicated Clock did not influence the maintaining of pluripotent state. However, they exhibited decreased proliferation and increased apoptosis. Furthermore, the biological rhythms failed to develop in Clock knockout mESCs after spontaneous differentiation, which indicated that there was no compensational factor in most peripheral tissues as described in mice models before (DeBruyne et al., 2007b). After spontaneous differentiation, loss of CLOCK protein due to Clock gene silencing induced spontaneous differentiation of mESCs, indicating an exit from the pluripotent state, or its differentiating ability. Our findings indicate that the core circadian gene Clock may be essential during normal mESCs differentiation by regulating mESCs proliferation, apoptosis and activity.

Serological biomarkers detect active joint destruction and inflammation in patients with haemophilic arthropathy

INTRODUCTION

Progressive arthropathy caused by recurrent joint bleeds is a severe complication in haemophilia.

AIM

We investigated whether biomarkers of cartilage and bone degradation, and inflammation were altered in haemophilia patients and whether these biomarkers could identify haemophilia patients with arthropathy.

METHODS

Serum from 35 haemophilia patients with varying degrees of arthropathy and 43 age- and gender-matched control subjects were analysed. Biomarkers of cartilage degradation (C2M, COMP, CTX-II, ADAMTS5), cartilage formation (PRO-C2), bone formation (PINP), bone resorption (CTX-I) and inflammation (hsCRP, CRPM) were measured by ELISA. Arthropathy was assessed by radiological evaluation (Pettersson score) and physical examination (Gilbert score).

RESULTS

In patients with haemophilia, cartilage degradation, measured by C2M, CTX-II and COMP, was increased by 25% (P < 0.05) compared with control subjects. Levels of the cartilage degradation enzyme, ADAMTS5, were 10% lower in haemophilia patients (P < 0.05). Bone formation (PINP) was reduced by 25% (P < 0.05) in haemophilia patients, whereas bone resorption (CTX-I) was increased by 30% (P < 0.001). Acute inflammation (hsCRP) was increased by 50% (P < 0.01), whereas chronic inflammation (CRPM) was decreased by 25% (P < 0.0001). The hsCRP/CRPM ratio was 60% higher (P < 0.001) in haemophilia patients relative to control subjects. A biomarker panel combining C2M, CRPM, and ADAMTS5 could distinguish haemophilia patients from control subjects with 85.3% accuracy (P < 0.0001). We found no strong correlation between biomarkers and radiological and physical examination of the joint.

CONCLUSION

Biomarkers detect increased cartilage and bone degradation, and altered inflammatory activity in haemophilia patients with arthropathy. These biomarkers could potentially be used to identify patients with progressing joint disease.

CLOCK regulates Drp1 mRNA stability and mitochondrial homeostasis by interacting with PUF60

Circadian genes such as Clock, Bmal1, Cryptochrome1/2, and Period1/2/3 constitute the precise circadian system. ClockΔ19 is a commonly used mouse model harboring a circadian clock gene mutation, which lacks the EXON-19-encoded 51 amino acids. Previous reports have shown that ClockΔ19 mice have severe metabolic abnormalities. Here, we report that the mitochondria of ClockΔ19 mice exhibit excessive fission and dysfunction. We also demonstrate that CLOCK binds to the RNA-binding protein PUF60 through its EXON 19. Further, we find that PUF60 directly maintains mitochondrial homeostasis through regulating Drp1 mRNA stability, while the association with CLOCK can competitively inhibit this function. In ClockΔ19 mice, CLOCKΔ19 releases PUF60, leading to enhanced Drp1 mRNA stability and persistent mitochondrial fission. Our results reveal a direct post-transcriptional role of CLOCK in regulating mitochondrial homeostasis via Drp1 mRNA stability and that the loss of EXON 19 of CLOCK in ClockΔ19 mice leads to severe mitochondrial homeostasis disorders.

The circadian protein CLOCK regulates cell metabolism via the mitochondrial carrier SLC25A10

Physiological function and metabolic regulation are the most important outputs of circadian clock controls in mammals. Mitochondrial respiration and ROS production show rhythmic activity. Mitochondrial carriers, which are responsible for mitochondrial substance transfer, are vital for mitochondrial metabolism. Clock (Circadian Locomotor Output Cycles Kaput) is the first core circadian gene identified in mammalian animals. However, whether CLOCK protein can regulate mitochondrial functions via mitochondrial carriers is unclear. Here, we showed that CLOCK can bind to the mitochondrial carrier SLC25A10. For further analysis, we established a Slc25a10-/--Hepa1-6 cell line using CRISPR/Cas9 gene-editing technology. Slc25a10-/--Hepa1-6 cells showed disordered glucose homeostasis, increased oxidative stress levels, and damaged electron transport chains. Next, using an immunoprecipitation assay, we found that amino acids 43-84 and 169-210 in SLC25A10 are key sites that respond to CLOCK binding. Finally, forced expression of wild-type SLC25A10 in Slc25a10-/--Hepa1-6 cells could compensate for the loss of SLC25A10; the decreased glucose metabolism, severe oxidative stress and damaged electron transport chain were recovered. In addition, a mutant Slc25a10 with changes in two key sites did not show a rescue effect. In conclusion, we identified a new protein-protein interaction mechanism in which CLOCK can directly regulate cell metabolism via the mitochondrial membrane transporter SLC25A10. Our study might provide some new insights into the relationship between circadian clock and mitochondrial metabolism.

Serum Biomarkers Related to Glucocorticoid-Induced Osteonecrosis of the Femoral Head: A Prospective Nested Case-Control Study

Early diagnosis and prevention of glucocorticoid (GC)-induced osteonecrosis of the femoral head (ONFH) continues to be a challenging problem for clinicians and researchers. However, the role of circulating biomarkers for GC-induced ONFH, which may reveal individual susceptibility and facilitate earlier diagnosis, remains to be determined. The aim of this study was to identify potential biomarkers that may predict early GC-induced ONFH. A total of 123 patients scheduled for initial systemic GC therapy were enrolled in this prospective nested case-control study. The serum concentrations of 13 potential biomarkers were measured in seven patients with GC-induced ONFH, diagnosed instantly after short-term use of GCs and in 20 controls who did not develop osteonecrosis despite similar GC therapy. Biomarkers were measured both before and after taking GCs to identify any differences in marker levels and the changes during GC therapy between two groups. Type I collagen cross-linked C-telopeptide (β-CTX; p = 0.000) was significantly lower, high-density lipoprotein cholesterol (p = 0.092) and apolipoprotein (apo)-B/apo-A1 (p = 0.085) tended to be lower and higher, respectively, before GC treatment in osteonecrosis group. After GC therapy, β-CTX (p = 0.014) was significantly lower and amino terminal telopeptide of procollagen type I (PINP; p = 0.068) tended to be lower in the osteonecrosis group. As secondary outcomes, we observed remarkable changes in nine potential biomarkers following short-term GC therapy in both groups. In conclusion, we found that β-CTX, could potentially be used to predict GC-induced ONFH before GC therapy. Lower β-CTX and PINP are promising biomarkers for the early diagnosis of GC-induced ONFH. These findings need to be confirmed in large-scale prospective studies. © 2019 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 37:2348-2357, 2019.

Altered Clock and Lipid Metabolism-Related Genes in Atherosclerotic Mice Kept with Abnormal Lighting Condition

Background. The risk of atherosclerosis is elevated in abnormal lipid metabolism and circadian rhythm disorder. We investigated whether abnormal lighting condition would have influenced the circadian expression of clock genes and clock-controlled lipid metabolism-related genes in ApoE-KO mice. Methods. A mouse model of atherosclerosis with circadian clock genes expression disorder was established using ApoE-KO mice (ApoE-KO LD/DL mice) by altering exposure to light. C57 BL/6J mice (C57 mice) and ApoE-KO mice (ApoE-KO mice) exposed to normal day and night and normal diet served as control mice. According to zeitgeber time samples were acquired, to test atheromatous plaque formation, serum lipids levels and rhythmicity, clock genes, and lipid metabolism-related genes along with Sirtuin 1 (Sirt1) levels and rhythmicity. Results. Atherosclerosis plaques were formed in the aortic arch of ApoE-KO LD/DL mice. The serum lipids levels and oscillations in ApoE-KO LD/DL mice were altered, along with the levels and diurnal oscillations of circadian genes, lipid metabolism-associated genes, and Sirt1 compared with the control mice. Conclusions. Abnormal exposure to light aggravated plaque formation and exacerbated disorders of serum lipids and clock genes, lipid metabolism genes and Sirt1 levels, and circadian oscillation.

Biomechanical research of medial femoral circumflex vascularized bone-grafting in the treatment of early-to-mid osteonecrosis of the femoral head: a finite element analysis

PURPOSE

Hip preservation therapy of early ONFH (Osteonecrosis of the femoral head) has emerged as one of the hot areas of research. We have optimized the procedure of traditional MFCVBG (medial femoral circumflex vascularized bone grafting) by using specialized surgical tools and used the finite element analysis to guide the implantation position of the bone flap during surgery and validate the biological mechanical stability of the modified MFCVBG.

METHODS

This study was based on the data of a male patient with left hip (ARCO stage IIB, JIC type C) hormonal ONFH. Harris score (HHS), anteroposterior and lateral hip radiographs, frog position hip radiographs and SPECT/CT of femoral head flow imaging were performed postoperatively to evaluate clinical efficacy. The patient's CT data were used to establish upper femur finite element model of the normal group, osteonecrosis group and postoperative group, respectively. The force on the femoral structure of each group was analyzed under four different loads in the gait cycle of 0.5 times the body weight (0.5 G, standing on two feet), 2.75 G (standing on one foot), 4 G (walking with the middle foot on the ground) and 7 G (walking with the toe off the ground) to validate the biological mechanical stability of the modified MFCVBG, predict femoral head collapse risk, simulate of the different healing conditions of postoperative bone flap, and analyze the postoperative effect of non-ideal surgical model.

RESULTS

According to the follow-up results, the bone flap and the inner wall of decompression channel healed well, no osteonecrosis progression, no local collapse or micro-fracture occurred in the femoral head, and the articular surface was intact and the necrosis was well repaired. According to the result of the finite element analysis, compared with the osteonecrosis group, the overall stress and displacement peak of the upper femur and the cortical bone stress peak of the femoral head in the postoperative group and normal group were significantly reducing; modified MFCVBG can significantly improve the biomechanical stability of necrotic femoral head and reduce the risk of femoral head collapse; there was no obvious abnormal stress distribution in the greater trochanter and intertrochanter region after the flap was removed; the bone flap of the complete removal of necrotic focus + long bone flap group was directly placed at the bottom of the decompression passage, and the bone flap cortical bone can provide substantial mechanical support; in theory, patients can try to reduce the load with crutches or walking aids and carry out appropriate flat activities to effectively promote the early postoperative recovery.

CONCLUSIONS

The modified MFCVBG resulted in good efficacy, safety and feasibility. The necrotic focus should be completely removed during the operation, and the long bone flap should be placed directly under the subchondral bone. For patients with better bone healing ability, a more positive attitude can be taken to promote early postoperative weight-bearing.

Coexisting congenital dysfibrinogenemia with a novel mutation in fibrinogen γ chain (γ322 Phe→Ile, Fibrinogen Beijing) and haemophilia B in a family

INTRODUCTION

Both congenital dysfibrinogenemia and haemophilia B (HB) are rare coagulopathies caused by mutations within the fibrinogen and F9 genes respectively.

AIM

To investigate the pathogenesis of combined dysfibrinogenemia with HB in a family.

METHODS

Coagulation assays, factor IX (FIX) activity (one-stage method), fibrinogen activity (Clauss method), antigen (immunoturbidimetry), fibrinogen polymerization and fibrinolysis velocity were measured. The sequences of fibrinogen genes and F9 were amplified by PCR and analysed by sequencing.

RESULTS

The proband, a 16-year-old boy with HB (FIX 2 IU dL(-1) ), also had persistently low Clauss fibrinogen level (0.64-0.65 g L(-1) ) with normal antigen level (2.23 g L(-1) ). The mother had a FIX 45 IU dL(-1) and similarly discrepant low Clauss fibrinogen (0.79 g L(-1) ) to antigen levels (2.23 g L(-1) ). Thrombin time for both were either slightly prolonged or at boundary value. Genetic analysis of the proband and the mother identified similar mutations in the FGG gene (heterozygous c.1042T>A resulting in p.Phe348Ile or γPhe322Ile in the mature protein) and in the F9 gene (c.1243del p.His415Metfs*11 and c.1245T>A p.His415Gln). The father had no fibrinogen or F9 gene mutations. Plasma fibrinogen polymerization was delayed, but fibrinolysis velocity was normal in the proband and his mother.

CONCLUSION

To our knowledge, this is the first report of a family with combined novel dysfibrinogen (Fibrinogen Beijing) and HB with bleeding manifestations.

Development and validation of a prediction model for glucocorticoid-associated osteonecrosis of the femoral head by targeted sequencing

OBJECTIVE

To develop and validate a prediction model based on targeted sequencing for glucocorticoid (GC)-associated osteonecrosis of the femoral head (GA-ONFH) in GC-treated adults.

METHODS

This two-centre retrospective study was conducted between July 2015 and April 2019 at Zhongshan Hospital (training set) and the Sixth People's Hospital (test set) in Shanghai, China. All patients had a history of GC therapy, with a dose exceeding 2000 mg equivalent prednisone within 6 weeks. Patients were divided into two groups according to whether they were diagnosed with GA-ONFH within 2 years after GC initiation. Blood or saliva samples were collected for targeted sequencing of 358 single nucleotide polymorphisms and genetic risk score (GRS) calculating for developing GA-ONFH prediction model. Receiver operating characteristic (ROC) curve analysis and decision curve analysis (DCA) were performed to evaluate and validate the model.

RESULTS

. The training set comprised 117 patients, while the test set comprised 30 patients for external validation. Logistic regression analysis showed that GRS was significantly associated with GA-ONFH (OR 1.87, 95% CI: 1.48, 2.37). The ROC and DCA curves showed that the multivariate model considering GRS, age at GC initial, sex and underlying diseases had a discrimination with area under the ROC curve (AUC) of 0.98 (95% CI: 0.96, 1.00). This model was further externally validated using the test set with an AUC of 0.91 (95% CI: 0.81, 1.00).

CONCLUSION

Our prediction model comprising GRS, age, sex and underlying diseases yields valid predictions of GA-ONFH incidence. It may facilitate effective screening and prevention strategies of GA-ONFH.

[The comparison of characters between invasive micropapillary carcinoma and invasive ductal carcinoma not otherwise specified of the breast]

Objective: To analyze the differences of clinicopathological characters and prognostic factors between invasive micropapillary carcinoma of the breast (IMPC) and invasive ductal carcinoma (IDC) not otherwise specified of the breast. Methods: Patients who were treated from June 2008 to April 2016 in Breast Center of Beijing Hospital were retrospectively analyzed to evaluate the differences between IMPC (n=59) and IDC (n=1 080). Follow-up was done every 3 to 6 months postoperatively with a deadline of July 31, 2016. The curves of disease free survival (DFS) and overall survival (OS) were drawn by Kaplan-Meier method, and survival rates were compared by means of the Log-rank test. Potential prognostic variables which were identified on univariate analysis were analyzed with Cox's proportional hazards regression model for multivariate analysis. Results: More lymph nodes were involved in IMPC group (χ(2)=12.168, P=0.007) which led to more later stage in this group (χ(2)=8.950, P=0.011). IMPC group displayed a significantly increased rate of lymphovascular invasion (LVI) compared to IDC group (χ(2)=13.511, P = 0.001). The expression rate of estrogen receptor (ER) and progesterone receptor (PR) was higher in IMPC group than that in IDC group (89.8% vs. 76.3% and 88.1% vs. 70.7%, respectively, χ(2)=5.786, 8.332, all P<0.05). In multivariate analysis performed with the variables found significant in univariate analysis, the only variable found significantly affecting DFS of IMPC group was the T stage (T1-2 and T3-4, OR=5.217, 95%CI: 1.401 to 19.430, P=0.014), while in IDC group, pathological stage (stage Ⅰ to Ⅱ and stage Ⅲ to Ⅳ, OR=1.870, 95% CI: 1.262 to 2.771, P=0.002), lymph node positive ratio (LNR) (OR=2.222, 95%CI: 1.561 to 3.162, P=0.000), PR (OR=1.856, 95%CI: 1.118 to 3.082, P=0.017), and age (<50 years old and ≥50 years old, OR=0.695, 95%CI: 0.488 to 0.989, P=0.043) were prognostic factors. There were two variables found significantly affecting OS of IMPC group, which were T stage (OR=3.713, 95%CI: 1.539 to 8.959, P=0.004) and LNR (OR=2.850, 95%CI: 1.033 to 7.862, P=0.043). While in IDC group, LNR was the only variable found significantly affecting OS (OR=2.129, 95%CI: 1.324 to 3.425, P=0.002). Compared with IDC, the patients with IMPC were more likely to have local or regional recurrence (P=0.006). Although the median DFS interval was longer in IDC group (χ(2)=9.739, P=0.002), the median OS interval was comparable between the two groups (χ(2)=0.787, P=0.375). Conclusion: Although IMPC has lymphotropic feature, tendency of LVI and local or regional recurrence, it has an OS which is comparable with IDC.

[Comparison of prognosis between invasive micropapillary carcinoma and invasive ductal carcinoma of breast: a single center, retrospective case-control study]

Objective: To elucidate the clinicopathological characters and prognostic factors of invasive micropapillary carcinoma of the breast (IMPC) by compared with invasive ductal carcinoma, not otherwise specified of the breast (IDC). Methods: The retrospective study was performed with female patients who had undergone curative resection for breast cancer without neoadjuvant chemotherapy from June 2008 to April 2016 in Breast Center of Beijing Hospital. Forty-seven mixed or pure IMPC patients and 93 pure IDC patients(admitted in the same center from October 2008 to January 2016 ) were matched for tumor stage, nodal status and age. Follow-up was done every 3 to 6 months postoperatively. The deadline was July 31, 2016. The curves of disease free survival and overall survival were drawn by the Kaplan-Meier method, and survival rates were compared by means of the Log-rank test. Potential prognostic variables that were identified on univariate analysis were analyzed with Cox's proportional hazards regression model for multivariate analysis. The χ(2) test or Fisher's exact test was used to compare distributions across 2 groups and the Mann-Whitney U test or t test was used to analyze the medians or means of 2 groups. Results: With exact matches, the rates of lymphovascular invasion (LVI) (29.8% vs. 12.9%, χ(2)=5.885, P=0.015)and histological grade 3 (40.4% vs. 21.5%, χ(2)=-2.690, P=0.007) were both significantly higher in patients with IMPC than that in IDC group, but the survival between the two pathological types were not significantly different (all P>0.05). The percent of IMPC component didn't influence the clinicopathologic characters (all P >0.05), but a significantly longer median disease free survival (χ(2)=11.731, P=0.001) when the patients had more than 50% of IMPC component was found. Conclusions: Higher rates of LVI and histological grade 3 were found in IMPC than that in IDC, but the survival was comparable between the two groups. A longer DFS occurred in patients with IMPC component more than 50%.

Role of peroxisome proliferators-activated receptor-gamma in advanced glycation end product-mediated functional loss of voltage-gated potassium channel in rat coronary arteries

Background

Voltage-gated K+ (Kv) channels in coronary artery smooth muscle cells (CSMCs), especially the major specific Kv1 subfamily, contribute to coronary artery vasodilation. Advanced glycation end products (AGEs) have been strongly implicated in diabetes-related cardiovascular complications. Our previous study showed AGEs can impair Kv channel-mediated coronary vasodilation by reducing Kv channel activity. However, its underlying mechanism remains unclear.

Purpose

Here, we used isolated rat small coronary arteries (RSCAs) and primary CSMCs to investigate the effect of AGEs on Kv channel-mediated coronary vasodilation and the possible involvement of peroxisome proliferators-activated receptor (PPAR)-γ pathway.

Methods

RSCAs and primary CSMCs were isolated, cultured and treated with bovine serum albumin (BSA), AGE-BSA, alagrebrium (ALA, AGE cross-linking breaker), pioglitazone (PIO) and/or GW9662, and then divided into the following groups: DMEM, BSA, AGE, AGE+ALA, AGE+PIO, and AGE+PIO+GW9662. Kv channel-mediated coronary vasodilation was analyzed using wire myograph. Histology and immunohistochemistry of RSCAs were performed. Western blot was used to detect the protein expression of RAGE, the major Kv1 channel subunits expressed in CSMCs (Kv1.2/1.5), PPAR-γ, and nicotinamide adenine dinucleotide phosphate (NADPH) oxidase-2 (NOX-2).

Results

AGEs markedly reduced forskolin-induced Kv channel-mediated vasodilation of RSCAs by interacting with the receptor for AGEs (RAGE), and ALA or PIO significantly reversed this effect. In both RSCAs and primary CSMCs, AGEs decreased Kv1.2 and Kv1.5 channel protein expression, inhibited PPAR-γ expression, increased RAGE and NOX-2 expression. Treatment with ALA or PIO partially reversed the effects of AGEs on Kv1.2/Kv1.5 expression, accompanied by elevation of PPAR-γ level and diminished oxidative stress.

Conclusion

AGE/RAGE axis-induced inhibition of PPAR-γ pathway and enhancement of oxidative stress may contribute to AGEs-mediated Kv channel dysfunction and coronary vasodilation in RSCAs. Our results may provide new insights into developing therapeutic strategies to manage diabetic vasculature.

Funding Acknowledgement

Type of funding source: Foundation. Main funding source(s): National Natural Science Foundation of China; Natural Science Foundation of Beijing (7172059)

[The diagnostic value of anti-BB-antibody estimation in sarcoidosis]

Anti-BB-antibody estimation was carried out in 100 cases of sarcoidosis, 40 cases of suspected sarcoidosis, 45 cases of pulmonary tuberculosis, 39 cases of pulmonary infections, 17 cases of bronchogenic carcinoma and 60 healthy persons as control. The result showed, that the patients suffering from sarcoidosis had the highest positive rate of anti-BB-antibody levels, whereas the positive rate of anti-BB-antibody levels in patients suffering from suspected sarcoidosis, pulmonary infections and tuberculosis was lower than that in patients suffering from sarcoidosis. Patients suffering from bronchogenic carcinoma and healthy controls had the lowest levels of anti-BB-antibody. It was suggested that sarcoidosis may have some relationship with infection.

[Clinical value of serum copper, zinc and copper/zinc ratio in the differentiation of sarcoidosis from pulmonary tuberculosis and pulmonary carcinoma]

Serum Cu, SZn and SCu/Zn ratio were studied in 14 patients with sarcoidosis, 72 patients with pulmonary tuberculosis, 15 patients with pulmonary carcinoma and 50 healthy persons as control. The results were: no significant differences were found between control group and sarcoidosis group in SCu, SZn and SCu/Zn ratio. In tuberculosis group and carcinoma group SCu increased and SZn decreased. Therefore, the SCu/Zn ratio increased significantly. The results suggested that SCu less than 1.2 ppm (means + 2 s), SZn greater than 0.8 ppm (means - 2 s) and SCu/Zn ratio less than 1.5 were helpful for the differential diagnosis of sarcoidosis from pulmonary tuberculosis and pulmonary carcinoma.

[The sonochemical-degradation mechanism of toluene in aqueous solution]

The sonochemical degradation of toluene in the airproof aqueous solution was studied, and the mechanism and course of degradation was explored. It was found that the sonication time had great effect on the removal rate of toluene, and the degradation followed a pseudo-first-order kinetic law, and 90%-95% of toluene was removed only after being irradiated for 40 min, types of dissolved gas and pH also had some effects. After aqueous solution was analyzed pH and scanned UV-wavelength and identified components with SMPE-GC-MS, results confirmed that radical-oxidation controlled the sonochemical-oxidation of toluene, and main middle-products included benzaldehyde, bibenzyl, dibutyl phthalate, et al., final products were carbon dioxide and water.

[Fujian oversea Chinese and Chinese traditional pharmacist in Southeast Asia]

Hakka from Yongding and southern part of Fujian, engaged in Chinese traditional medicine enterprise in south - east Asia, make up the majority of overseas from Fujian. They played an important part in the development of traditional Chinese medicine and insurance of people's health, in planting Chinese herbs, opening pharmaceutical factory, organizing pharmaceutical company and associations of medicine etc. They made great contributions to the communication and cooperation of medicine between PR China and other countries, especially Fujian and south - east Asia.

Breast non-mass enhancement lesions on contrast-enhanced mammography: modified breast image reporting and data system classification

AIM

To investigate the utility of contrast-enhanced mammography (CEM) in the differential diagnosis of breast non-mass enhancement (NME) lesions, and to compare the diagnostic performance of BI-RADS for NME lesions in MG, US, MRI, and CEM.

MATERIALS AND METHODS

A total of 120 patients were included from April 2019 to April 2022. The independent enhancement descriptors for malignancy of NME were identified through binary logistic regression analysis. The modified BI-RADS in CEM (mBI-RADS (CEM)) was defined after adjusting the BI-RADS (MG) by independent descriptors. The diagnostic performances of BI-RADS in low-energy image, US, MRI, and CEM were evaluated and compared using receiver operating characteristic (ROC) analysis and DeLong's test.

RESULTS

The enhancement descriptors of enhancement morphological distribution, internal enhancement pattern and time-signal intensity curve were identified as independent risk factors for malignancy (all P≤0.001). For all-group NME analyses, the areas under the curve (AUCs) of mBI-RADS (CEM) were higher than those of BI-RADS (MG) (all P<0.050). For sub-group NME analyses, the AUCs of mBI-RADS (CEM) and BI-RADS (MRI) were higher than those of BI-RADS (MG) and BI-RADS (US) (all P<0.001). While in NME with non-micro-calcification sub-group, the area under the receiver operating characteristics curve of mBI-RADS (CEM) was higher than those of BI-RADS (MRI), both of which were higher than those of BI-RADS (MG) and BI-RADS (US) (all P<0.050).

CONCLUSION

The mBI-RADS (CEM), which integrates morphological and enhancement features, can significantly improve the diagnostic accuracy compared with BI-RADS (MG). Furthermore, the mBI-RADS (CEM) demonstrated specific advantages for NME with micro-calcifications compared with BI-RADS (MRI).