Antonio F. Saad

OxLDL immune complexes activate complement and induce cytokine production by MonoMac 6 cells and human macrophages

Oxidized low density lipoprotein (OxLDL) is immunogenic and induces autoimmune responses in humans. OxLDL antibodies are predominantly of the proinflammatory IgG1 and IgG3 isotypes. We tested the capacity of immune complexes prepared with copper-oxidized human LDL and affinity chromatography-purified human OxLDL antibodies [OxLDL-immune complexes (ICs)] to activate complement and to induce cytokine release by MonoMac 6 (MM6) cells and by primary human macrophages. The levels of C4d and C3a were significantly higher in human serum incubated with OxLDL-ICs than after incubation with OxLDL or OxLDL antibody, indicating complement activation by the classical pathway. MM6 cells and primary human macrophages were incubated with OxLDL-ICs, with or without prior conditioning with interferon-γ. After 18 h of incubation, both MM6 cells and primary human macrophages released significantly higher levels of proinflammatory cytokines after incubation with OxLDL-ICs than after incubation with OxLDL or with OxLDL antibody, both in primed and unprimed cells. OxLDL-ICs were more potent activators of MM6 cells than keyhole limpet hemocyanin-ICs. Blocking Fc gamma receptor I (FcγRI) with monomeric IgG1 significantly depressed the response of MM6 cells to OxLDL-ICs. In conclusion, human OxLDL-ICs have proinflammatory properties, as reflected by their capacity to activate the classical pathway of complement and to induce proinflammatory cytokine release from MM6 cells and primary human macrophages.

Acid Ceramidase Upregulation in Prostate Cancer Cells Confers Resistance to Radiation: AC Inhibition, a Potential Radiosensitizer

Radiation resistance in a subset of prostate tumors remains a challenge to prostate cancer radiotherapy. The current study on the effects of radiation on prostate cancer cells reveals that radiation programs an unpredicted resistance mechanism by upregulating acid ceramidase (AC). Irradiated cells demonstrated limited changes of ceramide levels while elevating levels of sphingosine and sphingosine-1-phosphate. By genetically downregulating AC with small interfering RNA (siRNA), we observed radiosensitization of cells using clonogenic and cytotoxicity assays. Conversely, AC overexpression further decreased sensitivity to radiation. We also observed that radiation-induced AC upregulation was sufficient to create cross-resistance to chemotherapy as demonstrated by decreased sensitivity to Taxol and C(6) ceramide compared to controls. Lower levels of caspase 3/7 activity were detected in cells pretreated with radiation, also indicating increased resistance. Finally, utilization of the small molecule AC inhibitor, LCL385, sensitized PPC-1 cells to radiation and significantly decreased tumor xenograft growth. These data suggest a new mechanism of cancer cell resistance to radiation, through upregulation of AC that is, in part, mediated by application of the therapy itself. An improved understanding of radiotherapy and the application of combination therapy achieved in this study offer new opportunities for the modulation of radiation effects in the treatment of cancer.

The Functional Effects of Acid Ceramidase Overexpression in Prostate Cancer Progression and Resistance to Chemotherapy

Among the many processes regulating cell death, ceramide signaling is a vital component. We previously determined that acid ceramidase (AC) is upregulated in 60% of primary prostate cancer (PCa) tissues, suggesting that AC may play a role in tumor development. In order to determine the significance of AC elevation, stable clones of DU145 cells with AC over-expression (AC-EGFP) were generated. Compared to controls (EGFP), AC-EGFP cells exhibited enhanced cell proliferation and migration. Subcutaneous injection of AC-EGFP cells into Nu/Nu mice resulted in larger tumor volumes compared to EGFP controls. Moreover, using the MTS viability assay, AC-EGFP cells were more resistant to cell death induced by doxorubicin, cisplatin, etoposide, gemcitabine or C6-ceramide. Conversely, knock down of AC using siRNA, sensitized AC-EGFP cells to these drugs. In addition, mass spectroscopic analysis of sphingolipids indicated that long chain ceramide levels were decreased in AC-EGFP cells treated with either doxorubicin or etoposide. In conclusion, this study implicates AC as a critical regulator of PCa progression by affecting not only tumor cell proliferation and migration but also responses to drug therapy, suggesting AC as a potential therapeutic target in advanced PCa.

Microenvironment and Pathogenesis of Epithelial Ovarian Cancer

Multiple genetic alterations play a role in the pathogenesis of ovarian cancer. Although many key proteins and pathways involved in ovarian carcinogenesis and metastasis have been discovered, knowledge of the early steps leading to malignancy remains poorly understood. This poor understanding stems from lack of data from early-stage cancers and absence of a well-established premalignant state universal to all ovarian cancer subtypes. Existing evidence suggests that ovarian cancers develop either through a stepwise mutation process (low-grade pathway), through genetic instability resulting in hastened metastasis (high-grade pathway), or more recently through what has been described as the “‘fimbrial-ovarian’ serous neoplasia theory.” In this latter model, ovarian serous cancers evolve from premalignant lesions in the distal fallopian tube called tubal intraepithelial carcinoma. In this manuscript, we review key genetic and molecular changes that occur in cancer cell progression and suggest a model of ovarian cancer pathogenesis involving both tumor cell mutations and microenvironmental factors.

Effects of pravastatin on angiogenic and placental hypoxic imbalance in a mouse model of preeclampsia

In order to determine the effects of pravastatin (Pra) on angiogenic and placental hypoxic imbalance in a model of preeclampsia induced by overexpression of soluble fms-like tyrosine kinase 1 (sFlt-1), we randomly allocated pregnant CD1 mice to injection with adenovirus-carrying sFlt-1 or mFc (control). The sFlt-1 group received either Pra (sFlt-1 + Pra) or water (sFlt-1). Mice were sacrificed at day 18, and serum levels of sFlt-1 and soluble endoglin (sEng) were measured. Placental expression of placental (PLGF) and vascular endothelial (VEGF) growth factors and other markers of angiogenesis and hypoxia were assayed. We observed that Pra treatment in sFlt-1 mice reduced sFlt-1 and sEng concentrations at day 18 to levels similar to control group. Placental PLGF and VEGF expression were upregulated, and markers of hypoxia downregulated to levels similar to control group. Hence, Pra prevents the rise in circulating antiangiogenic factors in a mouse model of preeclampsia. Statins may represent a novel approach to prevention of preeclampsia.

Oxidized LDL immune complexes and oxidized LDL differentially affect the expression of genes involved with inflammation and survival in human U937 monocytic cells.

OBJECTIVE To compare the global effects of oxidized LDL (oxLDL) and oxLDL-containing immune complexes (oxLDL-IC) on gene expression in human monocytic cells and to identify differentially expressed genes involved with inflammation and survival. METHODS AND RESULTS U937 cells were treated with oxLDL-IC, oxLDL, Keyhole limpet hemocyanin immune complexes (KLH-IC), or vehicle for 4h. Transcriptome profiling was performed using DNA microarrays. oxLDL-IC uniquely affected the expression of genes involved with pro-survival (RAD54B, RUFY3, SNRPB2, and ZBTB24). oxLDL-IC also regulated many genes in a manner similar to KLH-IC. Functional categorization of these genes revealed that 39% are involved with stress responses, including the unfolded protein response which impacts cell survival, 19% with regulation of transcription, 10% with endocytosis and intracellular transport of protein and lipid, and 16% with inflammatory responses including regulation of I-kappaB /NF-kappaB cascade and cytokine activity. One gene in particular, HSPA6, greatly up-regulated by oxLDL-IC, was found to be required for the process by which oxLDL-IC augments IL1-beta secretion. The study also revealed genes uniquely up-regulated by oxLDL, including genes involved with growth inhibition (OKL38, NEK3, and FTH1), oxidoreductase activity (SPXN1 and HMOX1), and transport of amino acids and fatty acids (SLC7A11 and ADFP). CONCLUSIONS These findings highlight early transcriptional responses elicited by oxLDL-IC that may underlie its cytoprotective and pro-inflammatory effects. Cross-linking of Fc gamma receptors appears to be the trigger for most of the transcriptional responses to oxLDL-IC. The findings further strengthen the hypothesis that oxLDL and oxLDL-IC elicit disparate inflammatory responses and play distinct roles in the process of atherosclerosis.

Obstetric hemorrhage: recent advances.

Hemorrhage is the most common cause of maternal mortality worldwide, and represents the third most common obstetrical cause of maternal death in the United States. Although uterine atony was previously a major cause of peripartum hemorrhage, more recently, it appears that abnormal placentation is the leading etiology and the main indication of peripartum hysterectomy. Early identification and aggressive management of obstetrical hemorrhage is of utmost importance to prevent maternal morbidities and mortality.

Pregnancy-Associated Atypical Hemolytic-Uremic Syndrome

Précis Introduction Early diagnosis of atypical uremic–hemolytic syndrome may be challenging during the puerperium period. Correct diagnosis and timely management are crucial to improve outcomes. Background Pregnancy-associated atypical hemolytic-uremic syndrome (p-aHUS) is a rare condition characterized by microangiopathic hemolytic anemia, thrombocytopenia, and acute kidney injury. Triggered by pregnancy, genetically predisposed women develop the syndrome, leading to a disastrous hemolytic disease characterized by diffuse endothelial damage and platelet consumption. This disease is a life-threatening condition that requires prompt diagnosis and therapy. Case A 19-year-old G1P1 Caucasian female with suspicion of HELLP syndrome was treated at our facility for severe thrombocytopenia and acute kidney injury. A diagnosis of atypical uremic–hemolytic syndrome was later confirmed. The patients condition improved with normalization of platelets and improvement in kidney function after 14 days of plasmapheresis. She was subsequently treated with eculizumab, a monoclonal antibody against C5. The patient tolerated well the therapy and is currently in remission. Conclusion Diagnosis of p-aHUS is challenging, as it can mimic various diseases found during pregnancy and the postpartum. Plasma exchange should be promptly initiated within 24 hours of diagnosis. Eculizumab has risen to become an important tool to improve long-term comorbidities and mortality in this group population.

Pravastatin Effects on Placental Prosurvival Molecular Pathways in a Mouse Model of Preeclampsia

Objective: Using an animal model of preeclampsia induced by overexpression of soluble fms-like tyrosine kinase 1 (sFlt-1), we previously showed that pravastatin prevents the development of a preeclampsia phenotype. Our objective is to determine whether pravastatin treatment may be explained by its effects on apoptotic/survival pathways in the placenta. Methods: Pregnant CD1 mice at day 8 of gestation (length of gestation 19 days) were randomly allocated to injection via tail vein with either adenovirus carrying sFlt-1 or adenovirus carrying the murine immunoglobulin G2α Fc fragment (mFc virus control group). Mice from the sFlt group were randomly assigned to receive pravastatin (5 mg/kg/d) in their drinking water from day 9 until killing (sFlt-1 + Pravastatin) or water (sFlt-1). The mFc control received water only. Mice were killed on day 18, and the placentas were collected. Protein mitogen-activated protein kinase (MAPK) pathway substrates were assayed using Bioplex Multiplex Immunoassay (Bio-Rad, Hercules, California). Data are reported as mean  ±  standard error of the mean or median (interquartile range) when appropriate. One-way analysis of variance followed by post hoc analysis was performed. Two-sided P value < .05 was considered statistically significant. Results: The sFlt-1 + Pravastatin mice had significantly higher placental protein concentrations of prosurvival/ antiapoptotic factors (activating transcription factor 2, pp38, phosphorylated c-jun N-terminal kinase, and phosphorylated extracellular signal-regulated kinase) and of heat-shock protein 27 and signal transducer and activator of transcription 3, 2 factors crucial for embryonic and placental development during oxidative stress, compared to sFlt-1 mice (P  <  .05) and similar to the mFc control group. No differences were noted in substrates of the proapoptotic pp53 pathway. Conclusion: Pravastatin ability to prevent preeclampsia phenotype may be mediated through pleiotropic mechanisms involving a prosurvival/ antiapoptotic MAPK pathway in the placenta. Our results further support continued research in the role for statins in the prevention of preeclampsia.

The role of vasopressin and the vasopressin type V1a receptor agonist selepressin in septic shock

Abstract Septic shock remains one of the major causes of morbidity and mortality in the critically ill. Despite early goal therapy and administration of cathecholaminergic agents, up to 30% of patients succumb to the disease. In this manuscript, we first summarize the standard of care of patients with septic shock and current guidelines. We review the physiologic role of vasopressin and its role in septic shock management. We then review the most up‐to‐date evidence on the potential role of V1a receptor agonists such as Selepressin, in septic shock. Exciting new trials are being completed in order to elucidate the role of V1a receptor agonists as potential first‐line vasopressor alternatives in the therapy of circulatory shock in septic patients. HighlightsCatecholamines remain the main stay of management in septic shock patients.Beneficial effects of vasopressin is through vasoconstriction by V1aR activation rather than V2R binding.V2R binding can lead to worsening of shock by selective vasodilation, thromboembolism, diminishing diuresis and neurological alterations.Emerging new evidence points to novel alternate agents such as V1a receptor agonists like Selepressin.Selepressin has shown promising results in animal studies and preliminary clinical trials are in favor of its use.