METHODS AND PHARMACEUTICAL COMPOSITIONS FOR THE TREATMENT OF POST-OPERATIVE COGNITIVE DYSFUNCTION

Abstract

The present invention relates to methods and pharmaceutical compositions for the treatment of post-operative cognitive dysfunction. In particular, the present invention relates to a method of treating post-operative cognitive dysfunction in a subject in need thereof comprising administering to the subject a therapeutically effective amount of an APJ receptor agonist.

Claims

1. A method of treating post-operative cognitive dysfunction in a subject in need thereof comprising administering to the subject a therapeutically effective amount of an APJ receptor agonist.

2. The method of claim 1 wherein the subject is determined to be at risk for post-operative cognitive dysfunction.

3. The method of claim 1 wherein the subject is diagnosed with or indicated to have impairment in cognition.

4. The method of claim 1 wherein the APJ receptor agonist is administered perioperatively.

5. The method of claim 1 wherein the post-operative cognitive dysfunction is cognitive impairment experienced after surgery selected from the amp consisting of abdominal surgery, bench surgery, cardiac surgery, cerebral surgery, cineplastic surgery (e.g. surgery to create a tunnel through a muscle adjacent to the stump of an amputated limb, to permit use of the muscle in operating a prosthesis), cosmetic surgery, dentofacial surgery, neurological surgery, oral surgery, orthopedic surgery, pelvic surgery, plastic surgery, rectal sureery, urological surgery, vascular surgery, and otolaryngology surgery.

6. The method of claim 1 wherein the ARJ receptor agonist is administered concomitantly or sequentially with an anesthetic to the subject.

7. The method of claim 6 wherein anesthetic is selected from the group consisting of diethyl ether, methoxypropane, vinyl ether, halogenated ethers, haloalkanes, a deutered analogue of methoxyflurane, and deutered sevoflurane.

8. The method of claim 1 wherein APJ receptor agonist is selected from the group consisting of small organic molecules, aptamers, antibodies and polypeptides.

9. The method of claim 4, wherein the API receptor agonist is administered prior to, during and/or after surgery, and/or after hospital discharge.

10. The method of claim 5, wherein the abdominal surgery is surgery of the abdominal viscera; the bench surgery is surgery performed on an organ that has been removed from the body; the cineplastic surgery is surgery to create a tunnel through a muscle adjacent to a stump of an amputated limb to permit use of the muscle in operating a prosthesis; the cosmetic surgery is surgery to improve the subject's appearance by plastic restoration, correction or removal of blemishes; the dentolfacial surgery is surgery to correct defects of the face and structures of the mouth; the neurological surgery is surgery involving the peripheral or central nervous system; the pelvic surgery is obstetrical and/or gynaecological surgery; the oral surgery is surgery to correct defects of the mouth, jaws and associated structures; the orthopedic surgery is hip replacement; the plastic surgery is surgery involving restoration, reconstruction, correction or improvement in shape and appearance of body structures that are defective, damaged or misshapened by injury, disease, or growth and development; the urological surgery is surgery of the male genitourinary system; and the otolaryngology surgery is surgery of the ears, nose, throat or related structures.

11. The method of claim 7, wherein the halogenated ether is desflurane, enflurane, halothane, isoflurane, or methoxyflurane; and the haloalkane is chloroform, halothane, trichloroethylene, cyclopropane, ethylene, nitrous oxide, sevoflurane, xenon, deuterated isoflurane or hexafluoro-t-butyl-difluoromethyl ether.

Description

FIGURES

[0094] FIG. 1 shows that pain and nociception measured by Von Frey or Hargreave's techniques are significantly decreased by apelin treatment as respectively shown in FIGS. 1a and 1b.

[0095] FIG. 2 shows that Daily treatment with apelin increases the freezing carried out in mice.

[0096] FIG. 3 shows that apelin treatment decreased hematoma TNFa mRNa and hyppocampus IL-6 mRNA expression in fractured mice.

[0097] FIG. 4: Percentage of freezing in aged mice. Twenty month old male C57B16/j mice were fractured with (fracture apelin) or without (fracture PBS) an i.p treatment of apelin (0.5 nmol/kg) before and during 3 days after the fracture. After 3 days, animal hippocampal memory was tested by fear conditioning test. N=6 to 10, *p<0.05 compared to control.

[0098] FIG. 5: Plasma apelin variation before and after a programmed hip replacement surgery. Blood was collected in patients 24 h before the surgery (J−1) or 24 h or 6 days later (J+1 and J+6). Plasma apelin was measured by a commercial ELISA test. In this study, patent are 60 years old and over.

EXAMPLE 1

[0099] Material & Methods

[0100] Surgery

[0101] All mice were anaesthetized with 2-3% sevoflurane. Adequate anesthesia was ascertained by an absent pedal withdrawal reflex after hard pinching of the toe. Closed tibial fracture was performed as previously described (Minville et al 2008). Briefly, after antiseptic preparation of the right paw with povidone-iodine, a unilateral closed fracture was produced in the right tibia using a specially designed fracture apparatus (blunt guillotine). For the intramedullary pinning using a sterile technique, a hole was made above the tibial tuberosity per-cutaneously using a 27 G needle (BD Microlance—27G ¾ L 19 mm). Then, the needle was directed straight into the medullary canal. By rotating the needle, the canal was reamed to 5 mm up to the ankle joint. The end of the needle was cut as short as possible so that the skin could roll over and covers it. No suture was performed. The mouse was then placed with the leg on the anvil in order to line up the blunt guillotine with the proximal third of the tibia. A 300 g weight was decreased from a height of 9 to 10 cm, fracturing the tibia shaft. No movement response to injury occurred under these conditions.

[0102] Administration of Drugs

[0103] Apelin administration (ip, 0.5 umol/kg, Bachem) has been performed 1 hour before fracture and daily during the 15 consecutive days. Same volume of PBS has been injected in control mice.

[0104] Behavioral Tests

[0105] Mechanical Nociception

[0106] The animals were placed in cages equipped with a raised wire floor for the application of Von Frey filaments on the injured hind paw. A 15-min habituation period was observed. Von Frey filaments of increasing size were then applied to the plantar arch of the injured foot, to observe a characteristic pain response (paw withdrawal, triple flexion, licking of the paw, an association of these different responses). Each filament was applied to bend slightly for a 6-second period starting with the 0.6 g, and increasing until the positive response. The test was repeated 3 times, allowing a 5-min resting period between each test. The value of the lowest filament applied causing a positive response was considered as the threshold of mechanical nociception. The test was repeated at day 1, 5 and 15 after fracture.

[0107] Thermal Nociception

[0108] Thermal nociception was evaluated using the Hargreaves method. The animals were placed in individual cages equipped with a transparent window to allow the application of the light beam stimulus (4×6 mm with the light intensity that was previously set at 40% intensity maximum, so that it produces a heat of 52° C.). The light beam was applied at the hind paw. A 15-min habituation period was observed. The latency (in seconds) between the start of the application of the beam and a pain response was then measured. To avoid tissue damage, thermal stimulation did not exceed 20 s. The test was repeated 3 times, respecting a 5-min resting period. The shortest latency recorded was regarded as the threshold for thermal nociception. The test was repeated at day 1, 5 and 15 after fracture.

[0109] Fear Conditioning

[0110] To test the long-term memory and learning abilities, a fitness test to fear (Fear Conditioning Test) was used.

[0111] During the learning session, this test combines a painful and anxiety-producing event (2 short electrical discharges 0.3 mA 2 s on the legs) in an environmental context (floor cage with metal grills, washed several times a day with an alcoholic solution), visual (compound walls of black and white stripes, and white light patterns on the walls of the room) and sound (each discharge is preceded by a 80 dB sound 20 seconds). The learning phase lasted 4 minutes 25 seconds.

[0112] In the context of test sessions, conducted in the 3rd postoperative day, the animal was reintroduced in the same cage for 4 minutes. The context was the same but without sound stimulation or pain stimulus. If the animal was able to memorize the fact that this context is associated with a painful event, he engaged in conduct of fear, freezing, defined as total immobility except for respiratory movements. Operator who ignored the treatment received by each animal evaluated the freezing time of each animal. The blind was lifted at the end of all manipulations. This rugged test requires a proper functioning of the hippocampus, but also the amygdala and cortex. This test has been used to diagnose post-operative cognitive impairment in animal models in several publications. The test was performed at day 3 after fracture.

[0113] Tissues Collection

[0114] 72 hours after fracture, mice were euthanatized by rapid carotid section and decapitation. Hippocampus and hematoma were rapidly collected and snap frozen. Blood was collected during carotid section, centrifuged and plasma was snap frozen.

[0115] mRNA Expression of Proinflammatory Cytokines

[0116] IL-6 and TNFa mRNA levels were measured by RT-PCR technique (see Dray et al. Cell metabolism 2008).

[0117] Results

[0118] Pain is Reduced by Apelin Treatment

[0119] Pain and nociception measured by Von Frey or Hargreave's techniques are significantly decreased by apelin treatment as respectively shown in FIGS. 1a and 1b.

[0120] Daily treatment with apelin increases the freezing carried out in mice.

[0121] Postoperative, the operated mice developed cognitive impairment (FIG. 2). Indeed, when tested in the context made to the third days post-surgery, the operated animals showed freezing rate statistically lower than those of non-operated animals. These manipulations have validated once again the animal model developed by our team. The operated mice that received a daily injection of apelin had a freezing rate increased compared to mice receiving operated saline injections (FIG. 2). The non-operated mice treated by apelin did not display change in their rate of freezing.

[0122] Inflammatory Status:

[0123] Apelin treatment decreased hematoma TNFa mRNa and hyppocampus IL-6 mRNA expression in fractured mice. Fractured mice treated by apelin exhibited a strong decreased of the proinflammatory cytokine TNFa in the hematoma (FIG. 3a). Associated to this decrease, apelin treatment is able to avoid IL-6 increase in hippocampus of fractured mice (FIG. 3b).

EXAMPLE 2

[0124] Material & Methods

[0125] See Material & Methods of EXAMPLE 1

[0126] Results

[0127] FIG. 4 shows that in spite of their age (20 months old) animals treated with apelin are still sensitive to the peptide since they do not exhibit hippocampal memory failure after the fracture. In another hand, animals treated with PBS display a decrease of freezing compared to 3 months old animal.

EXAMPLE 3

[0128] Material & Methods

[0129] Patients are 60 years old and over with 56% of males. They do not display any significant pathologies (cancer, heart failure . . . ) associated to a potential treatment. These patients are programmed for surgery aiming to a hip replacement.

[0130] Results

[0131] FIG. 5 shows a plasma apelin variation in response to surgery with a decrease in apelin 24 h after surgery and a normalization of apelin amounts in blood after 6 days.

REFERENCES

[0132] Throughout this application, various references describe the state of the art to which this invention pertains. The disclosures of these references are hereby incorporated by reference into the present disclosure.