An intracellular nanobody targeting T4SS effector inhibits Ehrlichia infection

Infection with obligatory intracellular bacteria is difficult to treat, as intracellular targets and delivery methods of therapeutics are not well known. Ehrlichia translocated factor-1 (Etf-1), a type IV secretion system (T4SS) effector, is a primary virulence factor for an obligatory intracellular bacterium, Ehrlichia chaffeensis. In this study, we developed Etf-1–specific nanobodies (Nbs) by immunizing a llama to determine if intracellular Nbs block Etf-1 functions and Ehrlichia infection. Of 24 distinct anti–Etf-1 Nbs, NbD7 blocked mitochondrial localization of Etf-1–GFP in cotransfected cells. NbD7 and control Nb (NbD3) bound to different regions of Etf-1. Size-exclusion chromatography showed that the NbD7 and Etf-1 complex was more stable than the NbD3 and Etf-1 complex. Intracellular expression of NbD7 inhibited three activities of Etf-1 and E. chaffeensis: up-regulation of mitochondrial manganese superoxide dismutase, reduction of intracellular reactive oxygen species, and inhibition of cellular apoptosis. Consequently, intracellular NbD7 inhibited Ehrlichia infection, whereas NbD3 did not. To safely and effectively deliver Nbs into the host cell cytoplasm, NbD7 was conjugated to cyclized cell-permeable peptide 12 (CPP12-NbD7). CPP12-NbD7 effectively entered mammalian cells and abrogated the blockade of cellular apoptosis caused by E. chaffeensis and inhibited infection by E. chaffeensis in cell culture and in a severe combined-immunodeficiency mouse model. Our results demonstrate the development of an Nb that interferes with T4SS effector functions and intracellular pathogen infection, along with an intracellular delivery method for this Nb. This strategy should overcome current barriers to advance mechanistic research and develop therapies complementary or alternative to the current broad-spectrum antibiotic.

Human monocytic ehrlichiosis (HME), one of the most prevalent, life-threatening, and emerging tick-borne diseases in the United States (1, 2) is caused by infection with Ehrlichia chaffeensis, an obligatory intracellular bacterium in the order Rickettsiales. E. chaffeensis replicates within human monocytes-macrophages and causes severe flu-like symptoms accompanied by hematologic abnormalities and hepatitis. Currently, the only HME therapy is the broad-spectrum antibiotic doxycycline, which is effective only if initiated early because delayed initiation (e.g., because of misdiagnosis can lead to severe complications or death). In addition, doxycycline is contraindicated for pregnant women and children or those with drug allergies. The presence of underlying illness or injury, immunosuppression, and coinfection with other tick-borne pathogens can similarly lead to severe complications or death (3). No vaccine exists for HME. Tick-borne diseases have risen dramatically in the past 20 y and continue to rise, underscoring the importance of developing new therapeutic approaches and preventive measures (4).The type IV secretion system (T4SS) is conserved among all rickettsial organisms. The recent elucidation of critical roles of T4SS for E. chaffeensis and Anaplasma phagocytophilum infection (5) may provide potential targets for new approaches against rickettsial diseases. For example, the T4SS effectors Ehrlichial translocated factors 1 and 2 (Etf-1 and Etf-2) are critical E. chaffeensis proteins secreted via T4SS into the host cell cytoplasm, as knockdown of Etf-1 or Etf-2 by transfection of E. chaffeensis with specific antisense peptide nucleic acids significantly inhibits E. chaffeensis infection (6, 7). Secreted Etf-1 localizes to mitochondria and blocks mitochondria-mediated host cell apoptosis to keep the infected host cell alive for bacterial intracellular replication (8). A subpopulation of Etf-1 molecules that are not localized to mitochondria interacts with Beclin 1 (ATG6) and active Rab5 (Rab5-GTP), and induces Rab5-regulated autophagy for E. chaffeensis to acquire catabolites as nutrients (9). Etf-2 directly binds Rab5-GTP on Ehrlichia-containing inclusion membranes and blocks Rab5 GTPase activating protein (RabGAP-5) engagement with Rab5-GTP to prevent Ehrlichia-containing inclusions from maturing into late endosomes and fusing with lysosomes (7).Camelidae produce two types of antibodies: conventional antibodies and heavy-chain–only antibodies (10). The variable domain of the heavy chain of heavy-chain–only antibodies (VHHs) of camelids is the smallest (11 to 15 kDa) antigen-binding fragment relative to conventional antibodies. VHHs are soluble and display long surface loops, which are often larger than those of conventional murine and human antibodies (11, 12). The VHHs can be cloned into bacterial or mammalian expression plasmids (13) to produce a nanobody (Nb), a monomeric variable antibody. VHHs cloned into mammalian expression vectors can produce intracellular Nbs within mammalian cells that are superior to conventional antibodies for modulating intracellular functions because they can operate in the reducing intracellular environment, are proteolytically stable, can target subcellular sites, can penetrate cavities in target antigens, and can bind efficiently to antigens, such as enzyme catalytic sites (13–16). Although the therapeutic potential of Nbs has been investigated for several infectious diseases (14, 17–19), the use of Nbs as a therapeutic agent against intracellular bacteria such as E. chaffeensis has not been reported. In the present study, we developed an intracellular Nb approach to block T4SS effectors within mammalian cells, thereby inhibiting intracellular pathogen infection.Progress in developing effective therapy and investigative approach for obligatory intracellular pathogens has been hindered by many factors, not the least of which is the lack of safe and efficient intracellular delivery methods of macromolecules. Although cyclic peptides are generally unable to cross the cell membrane, some naturally occurring cyclic peptides (e.g., cyclosporine A) possess the unusual ability of crossing the cell membrane by passive diffusion and are orally bioavailable (20). Cyclized Arg-rich cell-permeable peptides (CPPs)—such as cyclo(FΦRRRRQ) or cFΦR4, where Φ is l-2-naphthylalanine—or newer and more effective CPPs, such as CPP9 and CPP12, that include d-arginine or d-phenylalanine, provide rapid and efficient cytosolic delivery of their linked cargo proteins into >95% of cells (21–23). They are not cytotoxic at effective concentrations and have oral and intravenous bioavailability based on preliminary pharmacokinetics in mice (22). The cyclic CPPs (and the CPP-cargo conjugates) bind directly to plasma membrane phospholipids and enter cells by endocytosis (22). They then efficiently escape from the early endosome into the cytosol unlike Tat, which escapes only from late endosomes (22–24).In the present study, we have developed anti–Etf-1 Nbs. We obtained a Nb that blocks Etf-1 functions and demonstrated its effectiveness in combination with a cyclic CPP for inhibition of E. chaffeensis infection in cell culture and in a mouse model. These findings represent a significant advance in developing therapeutic and investigative strategy of obligatory intracellular pathogens.     

Association between alcohol consumption and both osteoporotic fracture and bone density

Objective

Alcoholism is a risk factor for osteoporotic fractures and low bone density, but the effects of moderate alcohol consumption on bone are unknown. We performed a systematic review and meta-analysis to assess the associations between alcohol consumption and osteoporotic fractures, bone density and bone density loss over time, bone response to estrogen replacement, and bone remodeling.

Methods

MEDLINE, Current Contents, PsychINFO, and Cochrane Libraries were searched for studies published before May 14, 2007. We assessed quality using the internal validity criteria of the US Preventive Services Task Force.

Results

We pooled effect sizes for 2 specific outcomes (hip fracture and bone density) and synthesized data qualitatively for 4 outcomes (non-hip fracture, bone density loss over time, bone response to estrogen replacement, and bone remodeling). Compared with abstainers, persons consuming from more than 0.5 to 1.0 drinks per day had lower hip fracture risk (relative risk = 0.80 [95% confidence interval, 0.71-0.91]), and persons consuming more than 2 drinks per day had higher risk (relative risk = 1.39 [95% confidence interval, 1.08-1.79]). A linear relationship existed between femoral neck bone density and alcohol consumption. Because studies often combined moderate and heavier drinkers in a single category, we could not assess relative associations between alcohol consumption and bone density in moderate compared with heavy drinkers.

Conclusion

Compared with abstainers and heavier drinkers, persons who consume 0.5 to 1.0 drink per day have a lower risk of hip fracture. Although available evidence suggests a favorable effect of alcohol consumption on bone density, a precise range of beneficial alcohol consumption cannot be determined.     

High intraepithelial eosinophil counts in esophageal squamous epithelium are not specific for eosinophilic esophagitis in adults

OBJECTIVES: The histologic criterion of >20 eosinophils per high power field (hpf) is presently believed to establish the diagnosis of idiopathic eosinophilic esophagitis (IEE). This is based on data that the number of intraepithelial eosinophils in gastroesophageal reflux disease (GERD) is less than 20/hpf. This study tests this belief. METHODS: Pathology records were searched for patients who had an eosinophil count >20/hpf in an esophageal biopsy. This patient population was biased toward adults with GERD who had routine multilevel biopsies of the esophagus. The clinical, radiological, and manometric data and biopsies were studied. RESULTS: Forty patients out of a total of 3,648 reports examined had an eosinophil count >20/hpf in squamous epithelium of an esophageal biopsy. Analysis of these 40 cases indicated that 6 (15%) patients had IEE, 2 (5%) had coincident IEE and GERD, 28 (70%) had GERD, and 2 (5%) each had achalasia and diverticulum. There was no significant difference among these groups in terms of maximum eosinophil number, biopsy levels with >20 esoinophils/hpf, presence of eosinophilic microabscesses, involvement of surface layers by eosinophils, and severity of basal cell hyperplasia and dilated intercellular spaces. CONCLUSION: All histologic features presently ascribed to IEE can occur in other esophageal diseases, notably GERD. As such, the finding of intraepithelial eosinophilia in any number is not specific for IEE. When a patient with GERD has an esophageal biopsy with an eosinophil count >20/hpf, it does not mean that the patient has IEE.     

Ca2+ influx through T- and L-type Ca2+ channels have different effects on myocyte contractility and induce unique cardiac phenotypes

T-type Ca(2+) channels (TTCCs) are expressed in the developing heart, are not present in the adult ventricle, and are reexpressed in cardiac diseases involving cardiac dysfunction and premature, arrhythmogenic death. The goal of this study was to determine the functional role of increased Ca(2+) influx through reexpressed TTCCs in the adult heart. A mouse line with cardiac-specific, conditional expression of the alpha1G-TTCC was used to increase Ca(2+) influx through TTCCs. alpha1G hearts had mild increases in contractility but no cardiac histopathology or premature death. This contrasts with the pathological phenotype of a previously studied mouse with increased Ca(2+) influx through the L-type Ca(2+) channel (LTCC) secondary to overexpression of its beta2a subunit. Although alpha1G and beta2a myocytes had similar increases in Ca(2+) influx, alpha1G myocytes had smaller increases in contraction magnitude, and, unlike beta2a myocytes, there were no increases in sarcoplasmic reticulum Ca(2+) loading. Ca(2+) influx through TTCCs also did not induce normal sarcoplasmic reticulum Ca(2+) release. alpha1G myocytes had changes in LTCC, SERCA2a, and phospholamban abundance, which appear to be adaptations that help maintain Ca(2+) homeostasis. Immunostaining suggested that the majority of alpha1G-TTCCs were on the surface membrane. Osmotic shock, which selectively eliminates T-tubules, induced a greater reduction in L- versus TTCC currents. These studies suggest that T- and LTCCs are in different portions of the sarcolemma (surface membrane versus T-tubules) and that Ca(2+) influx through these channels induce different effects on myocyte contractility and lead to distinct cardiac phenotypes.     

The contribution of protease-activated receptor 1 to neuronal damage caused by transient focal cerebral ischemia

The serine proteases tissue plasminogen activator, plasmin, and thrombin and their receptors have previously been suggested to contribute to neuronal damage in certain pathological situations. Here we demonstrate that mice lacking protease-activated receptor 1 (PAR1) have a 3.1-fold reduction in infarct volume after transient focal cerebral ischemia. Intracerebroventricular injection of PAR1 antagonist BMS-200261 reduced infarct volume 2.7-fold. There are no detectable differences between PAR1-/- and WT mice in cerebrovascular anatomy, capillary density, or capillary diameter, demonstrating that the neuroprotective phenotype is not likely related to congenital abnormalities in vascular development. We also show that the exogenously applied serine proteases thrombin, plasmin, and tissue plasminogen activator can activate PAR1 signaling in brain tissue. These data together suggest that if blood-derived serine proteases that enter brain tissue in ischemic situations can activate PAR1, this sequence of events may contribute to the harmful effects observed. Furthermore, PAR1 immunoreactivity is present in human brain, suggesting that inhibition of PAR1 may provide a novel potential therapeutic strategy for decreasing neuronal damage associated with ischemia and blood-brain barrier breakdown.     

The role of the resting zone in growth plate chondrogenesis

In mammals, growth of long bones occurs at the growth plate, a cartilage structure that contains three principal layers: the resting, proliferative, and hypertrophic zones. The function of the resting zone is not well understood. We removed the proliferative and hypertrophic zones from the rabbit distal ulnar growth plate in vivo, leaving only the resting zone. Within 1 wk, a complete proliferative and hypertrophic zone often regenerated. Next, we manipulated growth plates in vivo to place resting zone cartilage ectopically alongside the proliferative columns. Ectopic resting zone cartilage induced a 90-degree shift in the orientation of nearby proliferative zone chondrocytes and seemed to inhibit their hypertrophic differentiation. Our findings suggest that resting zone cartilage makes important contributions to endochondral bone formation at the growth plate: 1) it contains stem-like cells that give rise to clones of proliferative chondrocytes; 2) it produces a growth plate-orienting factor, a morphogen, that directs the alignment of the proliferative clones into columns parallel to the long axis of the bone; and 3) it may also produce a morphogen that inhibits terminal differentiation of nearby proliferative zone chondrocytes and thus may be partially responsible for the organization of the growth plate into distinct zones of proliferation and hypertrophy.     

Contrast-induced nephropathy after percutaneous coronary interventions in relation to chronic kidney disease and hemodynamic variables

We previously found that contrast-induced nephropathy (CIN) complicating percutaneous coronary intervention adversely affects patients with chronic kidney disease (CKD). Therefore, we further investigated whether the predictors and outcome of CIN after percutaneous coronary intervention differ among patients with versus without CKD. Among 7,230 consecutive patients, CIN (>or=25% or >or=0.5 mg/dl increase in preprocedure serum creatinine 48 hours after the procedure) developed in 381 of 1,980 patients (19.2%) with baseline CKD (estimated glomerular filtration rate [eGFR] <60 ml/min/1.73 m(2)) and in 688 of 5,250 patients (13.1%) without CKD. Decreased eGFRs, periprocedural hypotension, higher contrast media volumes, lower baseline hematocrit, diabetes, pulmonary edema at presentation, intra-aortic balloon pump use, and ejection fraction <40% were the most significant predictors of CIN in patients with CKD. Apart from intra-aortic balloon pump use, predictors of CIN in patients without CKD were the same as mentioned, plus older age and type of contrast media. Regardless of baseline renal function, CIN correlated with longer in-hospital stay and higher rates of in-hospital complications and 1-year mortality compared with patients without CIN. By multivariate analysis, CIN was 1 of the most powerful predictors of 1-year mortality in patients with preexisting CKD (odds ratio 2.37, 95% confidence interval 1.63 to 3.44) or preserved eGFR (odds ratio 1.78; 95% confidence interval 1.22 to 2.60). Thus, regardless of the presence of CKD, baseline characteristics and periprocedural hemodynamic parameters predict CIN, and this complication is associated with worse in-hospital and 1-year outcomes.