The ACTH4-9 analog ORG 2766 'normalizes' the changes in motor activities of rats elicited by housing and test conditions

Analysis of the Antigenic Properties of Membrane Proteins of Mycobacterium tuberculosis

Tuberculosis (TB) is a continuing major threat to global health and a leading cause of death, particularly in developing countries. In this study, we aimed to identify a specific and sensitive diagnostic biomarker and develop a vaccine to prevent this disease. We investigated membrane proteins to reveal biomarkers in serum and peripheral blood mononuclear cells (PBMCs) obtained from TB patients. We employed Western blotting to evaluate serological immunoglobulin G levels, and Enzyme Linked Immunospot (ELISpot) to assess the antigen-specific cellular interferon-γ secretion from PBMCs after membrane protein stimulation. A total of 219 membrane proteins were identified, 52 exhibited at a higher levels than the 38-kDa prositive control. Of these 18 exhibited reacted ratios above 1, especially Rv1111c (427-981), with a ratios at 3.38. Accuracy and sensitivity were markedly higher for the top two antigen candidates, Rv0232 and Rv1115, after two rounds of ELISpot tests than ESAT-6 in the commercial kit (42.15 and 43.62%, respectively). These two proteins were administered to mice to detect whether they acted as effective antigens in vivo. These data provide a comprehensive view of the membranes involved in humoural and cellular immune responses that may be used as biomarkers for TB and candidates for a vaccine.

Chronic administration of Org2766 and morphine counteracts isolation-induced increase in social interest: implication of endogenous opioid systems

In complex behaviors, like social behavior, the MSH/ACTH (4-9) analog Org2766 is found to counteract changes in social interest caused by preceding housing or test conditions. Previous studies have indicated an involvement of endogenous opioid systems in these outcomes. In the present study we have counteracted isolation-induced enhanced social interest by chronic treatment (7 x every 48 h) with Org2766 or with the opiate morphine. These effects were blocked by previous administration of naloxone. However, in group-housed animals, both Org2766 and morphine treatment did not result in changes in social activity as compared to saline-treated group-housed controls. Chronic administration of naloxone in group-housed rats resulted in an increase in social interest. These results are discussed in relation to possible function of Org2766 and morphine as a substitute for the release of endogenous opioids caused by social contact.

The ACTH(4-9) analog ORG 2766 and recovery after brain damage in animal models--a review

Treatment with adrenocorticotrophic hormone (ACTH), as well as with ACTH fragments and analogues, can influence behaviour of animals and humans. Furthermore it facilitates recovery of damaged peripheral nervous tissue. The question whether ACTH/MSH peptides affect recovery processes after injury to the central nervous system as well is addressed in the present review. The effects of administration of the ACTH(4-9) analog ORG 2766 after brain lesions has been studied frequently. However, the interpretation of the available data is confused by the variability of the results. Several factors can be identified which influence the efficacy of the peptide: (i) not all behavioural tests are equally suitable to reveal a peptide effect on behavioural recovery; (ii) the affected brain area; (iii) whether cell bodies or terminals are affected; (iv) the post-operative housing conditions; and (v) the onset and duration of peptide administration. Two possible explanations of peptide efficacy on functional recovery are considered: first, the peptide may accelerate spontaneously occurring recovery processes and second, the peptide may induce compensatory mechanisms underlying functional recovery without recuperation of the damaged neurons. These compensatory mechanisms seem to rely mainly on enhanced non-selective attention by activation of limbic structures. It is as yet unknown to which receptor system ORG 2766 binds; the analog lacks affinity for the known melanocortin (MC) receptors in brain, yet ORG 2766 is able to modulate the activity of endogenous opioids and the NMDA-receptor. A modulating influence of the peptide on NMDA-receptor activity might indirectly account for both enhanced attention--with ensuing behavioural recovery--and the acceleration of spontaneous recovery.

The influences of fragments and analogs of ACTH/MSH upon recovery from nervous system injury

Post-injury treatment with some fragments and analogs of the adrenocorticotropic hormone (ACTH) can influence recovery after nervous system injury. This review considers both the successful and unsuccessful attempts to facilitate neural and behavioral recovery from nervous system damage via post-injury administration of these compounds. To date no single unifying explanation for the mixed results observed in animals prepared with forebrain injuries has been achieved. Several possible explanations for the variety of observations reported and several potentially productive avenues for future research are suggested.

Effects of the ACTH4-9 analog Org2766 on brain plasticity: modulation of excitatory neurotransmission?

ACTH-like neuropeptides have been investigated in various paradigms such as cognition, neuronal damage and neuronal excitation. All their effects may be collectively described as modulation of neural plasticity. However, the mechanism of action accounting for these effects remains to be demonstrated. This report is an overview of the data and has incorporated some additional findings of the influence of the ACTH4-9 analog, Org2766, on neuronal excitation, especially in the hippocampus. An interaction with NMDA receptors may account for the various aspects of plasticity. Based on recent findings demonstrating that the ACTH4-9 analog counteracts both the NMDA antagonist, AP5, and NMDA-induced explosive running behavior, the hypothesis is put forward that glutamatergic neurotransmission is involved in behavioral changes induced by the ACTH4-9 analog.

The MSH/ACTH(4-9) analog Org2766 counteracts isolation-induced enhanced social behavior via the amygdala

MSH/ACTH-like peptides influence social behavior induced by isolation It has been previously demonstrated that changes in locomotor activity as a result of isolation can be counteracted by Org2766 via the amygdala. The present study investigates whether isolation-induced changes in social behavior can also be affected by this peptide via the amygdala. A fully automated observation system was applied for detailed registration and analysis of movements of group-housed and 7-day isolated rats in a social interaction test. Administration of the MSH/ACTH(4-9) analog into the central nucleus of the amygdala elicited decreased locomotion, approach, and avoidance behaviors after isolation as compared to placebo-treated controls. However, general activity and social interest of group-housed rats were not affected by the MSH/ACTH(4-9) fragment. It is hypothesized that the amygdala is a site of action for neuropeptides in modulating social behavior.

Structural modifications of the ACTH-(4-9) analog ORG 2766 yields peptides with high biological activity

The behavioral effects of two peptides (HOE 427) and ORG 31433) related to the ACTH-(4-9) analog ORG 2766 were investigated in Wistar rats in a number of tests in which Org 2766 is active. Subcutaneous administration of HOE 427 in a dose of 0.5 ng/kg or ORG 31433 in doses of 0.5-5.0 ng/kg facilitated passive avoidance behavior whereas these peptides attenuated the avoidance response in doses of 25 ng/kg and 250 ng/kg respectively. ORG 31433 (0.1 - 1.0 microgram/kg) decreased motor activity of group housed rats tested under low light conditions. Furthermore subcutaneous (1.0- 10.0 ng/kg) or oral (10 microgram/kg) administration of ORG 31433 accelerated functional recovery from 6-hydroxydopamine (6-OHDA)-induced lesions in the nucleus accumbens which cause motor hypoactivity. The experiments show that as compared to ORG 2766 the peptides HOE 427 and ORG 31433 induce qualitatively similar responses but are approximately 10 to 100 times more potent. These data may imply that substitution of the C-terminal COOH group of ORG 2766 yields neuropeptides with increased potency.

Functional recovery after destruction of dopamine systems in the nucleus accumbens of rats. III. Further analysis of the facilitating effect of the ACTH-(4-9) analog ORG 2766

The functional recovery from impaired motor activity caused by 6-OHDA lesions in the nucleus accumbens is accelerated by the ACTH-related peptides ACTH-(4-10), alpha-MSH (ac-Ser1-ACTH-(1-13)NH2), ACTH-(7-10) and the ACTH-(4-9) analog ORG 2766. The peptides ACTH-(4-7) and Phe-D-Lys-Phe were not effective in this respect. This indicates that this effect of ACTH-derived peptides is located in the 7-10 part of the molecule whereas for the effect of ORG 2766 a bigger part of the molecule may be required. ORG 2766 was effective after intra-accumbal, subcutaneous and oral administration. The differences in potencies between the 3 routes of administration (ED50 0.76 ng/kg, 28.5 ng/kg and 80.6 micrograms/kg, respectively) suggest that the peptide exerts its effect by facilitating recovery processes at the lesion site. Studies with ORG 2766 showed that treatment during the first days following the induction of the lesion is essential for the facilitating action of the peptide on spontaneous recovery from brain damage.

Opioid systems in the amygdala can serve as substrate for the behavioral effects of the ACTH-(4-9) analog ORG 2766

Rats housed individually for 7 days showed a marked decrease in motor activity when tested under intense light conditions in a novel environment as compared to group-housed rats tested under low light conditions. The ACTH analogue ORG 2766 administered into the amygdala decreased the motor activity of group-housed rats tested under low light conditions and increased the motor activity of 7-days isolated rats tested under intense light conditions (ED50: 1-10 pg). Injection of the peptide into the nucleus accumbens was not effective, suggesting that ORG 2766 affects the integration of sensoric stimuli rather than the specific motor output systems. Pretreatment of the rats with the opiate antagonist naltrexone in the amygdala completely blocked the effect of ORG 2766. A similar blockade of the ORG 2766-induced effect could be induced by pretreatment with endorphin antibody suggesting that the "normalizing" activity of ORG 2766 on environmentally induced behavioral changes is mediated by the release of endogenous opioid peptides.

Behavioral and neurotrophic activity of ACTH-(7-16)NH2

The behavioral and neurotrophic effects of ACTH-(7-16)NH2 were assessed in a number of tests in which other ACTH fragments are active. Subcutaneous injection of ACTH-(7-16)NH2 increased motor activity of group-housed rats tested under low light intensity and induced hypokinesia in rats subjected to the mild stress of a nonfunctional "hot" plate. In rats with 6-OHDA lesions in the nucleus accumbens daily subcutaneous treatment with ACTH-(7-16)NH2 during the first week following the lesions reversed the lesion-induced motor hypoactivity. The ED50's for the effects of ACTH-(7-16)NH2 on the environmentally induced changes in motor activity, the stress-induced hypokinesia and the impaired motor activity of 6-OHDA lesioned rats were approximately 8 micrograms/kg. 6.3 micrograms/kg and 0.45 micrograms/kg respectively. It is concluded that ACTH-(7-16)NH2 may mimic the effect of an ACTH-like peptide in the brain involved in brain processes triggered by changes in the environment and by brain damage.

Stress-induced hypokinesia is facilitated by ACTH-(7-10)

Subcutaneous treatment with the neuropeptide ACTH-(4-10) induced hypokinesia in rats subjected to a mild stress induced by placing the animals on a non-functional "hot" plate (21 degrees C) for 30 sec, but not in control animals not exposed to this stress-inducing environment. The lowest effective dose of ACTH-(4-10) was 5 micrograms/kg, administered 50 min before testing. The combination of peptide treatment and the mild stress-inducing procedure mimicked the effect of a short intense stress induced by placing the rats on a hot plate (57 degrees C) for 30 sec, suggesting that this stress-induced hypokinesia is mediated by ACTH neuropeptides. Structure-activity relationship studies revealed that the active core for the ACTH-(4-10)-induced hypokinesia is located in the C-terminal tetrapeptide Phe-Arg-Try-Gly (ACTH-(7-10)). Pretreatment with the opioid antagonist naltrexone did not influence the effect of ACTH-(4-10) indicating that activation of opioid systems is not implicated in this behavioral effect of the peptide.