Functional signatures of protective antiviral T-cell immunity in human virus infections

Summary: The most common human viruses have different abilities to establish persistent chronic infection. Virus‐specific T‐cell responses are critical in the control of virus replication and in the prevention of disease in chronic infection. A large number of phenotypic markers and a series of functions have been used to characterize virus‐specific CD4⁺ and CD8⁺ T‐cell responses, and these studies have shown great phenotypic and functional heterogeneity of the T‐cell responses against different viruses. The heterogeneity of the T‐cell response has been proposed to be specific to each virus. However, over the past 2 years, several studies have provided evidence that the phenotypic and functional heterogeneity of CD4⁺ and CD8⁺ T‐cell responses is predominantly regulated by the levels of antigen load. The levels of antigen load modulate the phenotypic and functional patterns of the T‐cell response within the same virus infection. Furthermore, the functional characterization of virus‐specific CD4⁺ and CD8⁺ T‐cell responses has identified signatures of protective antiviral immunity. Polyfunctional, i.e. interleukin‐2 and interferon‐γ (IFN‐γ) secretion and proliferation, and not monofunctional, i.e. IFN‐γ secretion, CD4⁺ and CD8⁺ T‐cell responses represent correlates of protective antiviral immunity in chronic virus infections.     

Increase in muscular pain threshold following low frequency-high intensity peripheral conditioning stimulation in humans

The effects of low frequency-high intensity transcutaneous and intramuscular electrical nerve stimulation (TENS and IENS, respectively) on ipsilateral muscular pain threshold were studied in healthy volunteers. The combined effects of TENS (or IENS) and vibration as well as the effects of TENS applied to contralateral regions were also investigated. Muscular pain threshold was evaluated by the subjects' verbal reports in response to electrical stimulation (wire electrodes) of the vastus medialis muscle and by the appearance of blink response (startle reaction) without habituation. TENS was generally applied to the skin overlying the same muscle, and in some instances to the skin overlying the contralateral vastus medialis or triceps muscle. IENS was performed through the same electrodes used for inducing muscular pain. Vibration was applied to the tendon of ipsilateral quadriceps femoris muscle. TENS consistently induced marked and long-lasting elevations of ipsilateral muscular pain threshold. Comparable results were obtained by IENS. TENS and vibration performed simultaneously induced increases in muscular pain threshold, which were greater than those obtained with each individual conditioning stimulation. TENS proved to be capable of enhancing muscular pain threshold even when applied to contralateral regions; however, these effects were smaller and of shorter duration. The results provide evidence that low frequency-high intensity TENS (or IENS) are effective in raising muscular pain threshold and support the hypothesis that this type of stimulation brings supraspinal control systems into action through the activation of group III afferent fibres.     

Chemical activation of caudal medullary expiratory neurones alters the pattern of breathing in the cat.

1. The purpose of this work was to ascertain whether the activation of caudal expiratory neurones located in the caudal part of the ventral respiratory group (VRG) may affect the pattern of breathing via medullary axon collaterals. 2. We used microinjections of DL-homocysteic acid (DLH) to activate this population of neurones in pentobarbitone-anaesthetized, vagotomized, paralysed and artificially ventilated cats. Both phrenic and abdominal nerve activities were monitored; extracellular recordings from medullary and upper cervical cord respiratory neurones were performed. 3. DLH (160 mM) microinjected (10-30 nl for a total of 1.6-4.8 nmol) into the caudal VRG, into sites where expiratory activity was encountered, provoked an intense and sustained activation of the expiratory motor output associated with a corresponding period of silence in phrenic nerve activity. During the progressive decline of the activation of abdominal motoneurones, rhythmic inspiratory activity resumed, displaying a decrease in frequency and a marked reduction or the complete suppression of postinspiratory activity as its most consistent features. 4. Medullary and upper cervical cord inspiratory neurones exhibited inhibitory responses consistent with those observed in phrenic nerve activity, while expiratory neurones in the caudal VRG on the side contralateral to the injection showed excitation patterns similar to those of abdominal motoneurones. On the other hand, in correspondence to expiratory motor output activation, expiratory neurones of the Bötzinger complex displayed tonic discharges whose intensity was markedly lower than the peak level of control breaths. 5. Bilateral lignocaine blockades of neural transmission at C2-C3 affecting the expiratory and, to a varying extent, the inspiratory bulbospinal pathways as well as spinal cord transections at C2-C3 or C1-C2, did not suppress the inhibitory effect on inspiratory neurones of either the ipsi- or contralateral VRG in response to DLH microinjections into the caudal VRG. 6. The results show that neurones within the column of caudal VRG expiratory neurones promote inhibitory effects on phrenic nerve activity and resetting of the respiratory rhythm. We suggest that these effects are mediated by medullary bulbospinal expiratory neurones, which may, therefore, have a function in the control of breathing through medullary axon collaterals.     

Stimulation and proliferation of CD4+ peripheral blood T lymphocytes induced by an anti-CD4 monoclonal antibody

There is experimental evidence that the CD4 molecule participates in the antigen-driven activation of T cells expressing this surface glycoprotein. Whether CD4, a member of the immunoglobulin supergene family, acts as a ligand-binding molecule and/or is directly involved in the activation pathway has yet to be established. In this study, we show that human CD4⁺ lymphocytes can be activated by exposure to the anti-CD4 monoclonal antibody (mAb) B66. Normal peripheral blood CD4⁺ cells were induced to proliferate and to synthesize interleukin 2 (IL2) by the antibody. The specificity of the antibody stimulatory activity was tested by using IL2-producing clones bearing either CD4 or CD8 on their surface. IL2 production was induced by mAb B66 in CD4+, but not CD8⁺, clones, whereas both types of clones responded to stimulation by the anti-CD3 mAb Leu-4. Despite its unique stimulatory activity, mAb B66 shared with other anti-CD4 antibodies the ability to inhibit the specific cytolytic activity of CD4⁺ effector cells. These results clearly indicate that cross-linking of surface CD4 molecules with appropriate antibodies can fully activate CD4⁺ lymphocytes. Whether the natural ligand for CD4 can trigger this activation pathway remains to be defined.     

Dissociation between syncytia formation and HIV spreading. Suppression of syncytia formation does not necessarily reflect inhibition of HIV infection

In this study, we have observed that a dissociation may occur in vitro between syncytia formation and HIV spreading. Efficient HIV spreading and virus replication occurred either in HIV-infected LFA-1+ lymphocytes treated with anti-LFA-1 mAb or in HIV-infected lymphocytes genetically deficient in LFA-1, despite the fact that syncytia formation was completely suppressed. Therefore, these results indicate that syncytia formation cannot be used as the sole parameter to evaluate the spread of HIV in vitro.     

Transmembrane signalling via the T11-dependent pathway of human T cell activation. Evidence for the involvement of 1,2-diacylglycerol and inositol phosphates

It has previously been shown that some anti-T11 monoclonal antibodies, when used in combination, can activate the human T cell line Jurkat to produce interleukin 2. In this study, we investigate the mechanism by which perturbation of different epitopes of T11 molecules induces activation in Jurkat cells. We show that this activation is initiated by a T11-mediated increase in the concentration of free cytoplasmic calcium ions ([Ca2+]i). The initial increment in [Ca2+]i can occur when extracellular Ca2+ is depleted by EGTA, indicating that Ca2+ from intracellular stores is mobilized. As an early response to extracellular signals provokes a rapid breakdown of a class of lipid known collectively as the phosphoinositides, we measured the levels of phosphatidylinositol bisphosphate (PIP2) which is hydrolyzed to generate inositol triphosphates (IP3), the putative mobilizer of Ca2+ from internal stores and 1,2-diacylglycerol (DAG), the physiological activator of protein kinase C. Monoclonal antibodies directed either against different epitopes of T11 molecules or the T3-Ti antigen receptor complex provoke a rapid breakdown of PIP2, the parental product from which IP3 and DAG derive. In addition antibodies to either the T11 molecules or T3-Ti antigen receptor complex induce marked elevations in IP3, other inositol phosphate compounds and DAG. Taken together, these data indicate that, during T cell activation, due to the perturbation of T11 molecules or T3-Ti antigen receptor complex, membrane phosphoinositides are specifically hydrolyzed. This hydrolysis of phosphoinositides generates two putative second messengers such as IP3 and DAG, which mobilizes Ca2+ from intracellular stores and stimulates protein phosphorylation, respectively.     

Evaluation of outpatient adverse drug reactions leading to hospitalization.

Outpatient adverse drug reaction (ADR)related hospitalization through the emergency department of a nonprofit hospital and the contributing factors are reviewed. Patients who were hospitalized because of suspected ADRs were selected from daily admissions reports and patient medication profiles from 1997 and 1998 by the pharmacy department of a nonprofit community teaching hospital. Hospital charges for individual patients were obtained from the institution's accounting system. Suspected drugs, their therapeutic class, and the organ systems involved in the ADRs were identified. A total of 191 patients who had a complete medical history and cost information were included in the study. Of those patients, 56% were female, and 45% of the patients were 75 years of older. The average hospital charge per ADR patient was $9491. Room and board accounted for more than 50% of total charges. The average length of stay for study patients was 8.0 +/- 10.3 days. Major therapeutic classes implicated in ADRs included antidiabetic agents (27.8%), anticoagulants (15.2%), anticonvulsants (10.0%), beta-blockers (7.9%), and angiotensin-converting-enzyme inhibitors (7.9%). Organ systems most commonly involved in ADR admissions were the endocrine (30.9%) and cardiovascular (24.1%) systems. The implicationed therapeutic groups and organ systems exhibited a different pattern from those of earlier ADR studies. The elderly and the poor are most affected by ADRs. The availability of new drugs and the shift in disease treatment necessitate the continuous monitoring of new ADRs. Patients and family members should be integral components of a multidisciplinary strategy for minimizing the personal and social impact of ADRs.     

Beyond the cliff of creativity: A novel key to Bipolar Disorder and creativity

How brain processes translate into creativity is still an unsolved puzzle in science.