Title:  Method for administering insulin-like growth factor to the brain

United States Patent:   6,407,061

Assignee:  Chiron Corporation (Emeryville, CA)

Filed:  August 16, 1999

Disclosed is a method for transporting neurologic therapeutic agents to the brain by means of the olfactory neural pathway and a pharmaceutical composition useful in the treatment of brain disorders.

DETAILED DESCRIPTION OF THE INVENTION

The method of the present invention administers a neurologic agent to the nasal cavity of a human or other mammal for the testing of potential therapeutic agents against brain disease and for the treatment of brain disorders such as Alzheimer's disease , Parkinson's disease, affective disorders such as depression and mania, nerve damage from cerebrovascular disorders such as stroke or ordinary aging. In particular, the method delivers a neurologic agent to diseased areas of the brain by means of the olfactory neural pathway. The method may employ a pharmaceutical composition capable of transporting the neurologic agent to diseased neurons of the brain.

The method of the invention may achieve delivery of neurologic substances to afflicted areas of the brain through transneuronal retrograde and anterograde transport mechanisms. Delivery of neurologic agents to the brain by that transport system may be achieved in several ways. One technique comprises delivering the neurologic agent alone to the nasal cavity. In this instance, the chemical characteristics of the agent itself facilitate its transport to diseased neurons in the brain. Alternatively, the agent may be combined with other substances that assist in transporting the agent to sites of damaged neurons. It in preferred that auxiliary substances are capable of delivering the agent to peripheral sensory neurons and/or along neural pathways to dysfunctioning areas of the brain. It is further preferred that the peripheral nerve cells of the olfactory neural pathway be utilized in order to deliver the neurologic agent to damaged neurons in those regions of the brain that are connected to the olfactory bulb.

The neurologic agent that is administered by the method of the invention may be generally absorbed into the bloodstream and the neural pathway of the mammal. It is preferred that the agent exhibits minimal effects systemically. It is preferred that a large enough quantity of the agent be applied in non-toxic levels in order to provide an effective level of activity within the neural system against the brain disease. It is further preferred that the neurologic agent promote nerve cell growth and survival or augment the activity of functioning cells including enhancing the synthesis of neurotransmitter substances. Among those agents that are preferred are neurotrophic and neuritogenic factors that are similar to or the same as nerve growth promoting substances that are naturally occurring in the nervous system of a mammal. The agent may be administered to the nasal cavity alone or in combination with other neurologic agents. The agent may be combined with a carrier and/or other adjuvants to form a pharmaceutical composition. Among the preferred neurologic agents are gangliosides, nerve growth factor (NGF), phosphatidylserine (PS), brain-derived neurotrophic factor, fibroblast growth factor, insulin, insulin-like growth factors, ciliary neurotrophic factor, glia-derived nexin, and cholinergic enhancing factors such as phosphoethanolamine and thyroid hormone T.3. Among those agents that are particularly preferred are GM-1 ganglioside and nerve growth factor (NGF).

The method of the invention delivers the neurologic agent to the nasal cavity of a mammal. It is preferred that the agent be delivered to the olfactory area in the upper third of the nasal cavity and particularly to the olfactory epithelium in order to promote transport of the agent into the peripheral olfactory neurons rather than the capillaries within the respiratory epithelium. The invention prefers the transport of neurologic agents to the brain by means of the nervous system instead of the circulatory system so that potentially therapeutic agents that are unable to cross the blood-brain barrier from the bloodstream into the brain may be delivered to damaged neurons in the brain.

It is preferred that the neurologic agent is capable of at least partially dissolving in the fluids that are secreted by the mucous membrane that surround the cilia of the olfactory receptor cells of the olfactory epithelium in order to be absorbed into the olfactory neurons. Alternatively, the invention may combine the agent with a carrier and/or other substances that foster dissolution of the agent within nasal secretions. Potential adjuvants include GM-1, phosphatidylserine (PS), and emulsifiers such as polysorbate 80.

To further facilitate the transport of the neurologic agent into the olfactory system, the method of the present invention may combine the agent with substances that enhance the absorption of the agent through the olfactory epithelium. It is preferred that the additives promote the absorption of the agent into the peripheral olfactory receptor cells. These peripheral neurons provide a direct connection between the brain and the outside environment due to their role in odor detection.

The olfactory receptor cells are bipolar neurons with swellings covered by hairlike cilia which project into the nasal cavity. At the other end, axons from these cells collect into aggregates and enter the cranial cavity at the roof of the nose. It is preferred that the neurologic agent is lipophilic in order to promote absorption into the olfactory neurons and through the olfactory epithelium. Among those neurologic agents that are lipophilic are gangliosides and phosphatidylserine (PS). Alternatively, the neurologic agent may be combined with a carrier and/or other substances that enhance the absorption of the agent into the olfactory neurons. Among the supplementary substances that are preferred are lipophilic substances such as gangliosides and phosphatidylserine (PS). Uptake of non-lipophilic neurologic agents such as nerve growth factor (NGF) may be enhanced by the combination with a lipophilic substance.

In one embodiment of the method of the invention, the neurologic agent may be combined with micelles comprised of lipophilic substances. Such micelles may modify the permeability of the nasal membrane and enhance absorption of the agent. Among the lipophilic micelles that are preferred are gangliosides, particularly GM-1 ganglioside, and phosphatidylserine (PS). The neurologic agent may be combined with one or several types of micelle substances.

Once the agent has crossed the nasal epithelium, the invention further provides for transport of the neurologic agent along the olfactory neural pathway. The agent itself may be capable of movement within the olfactory system. In particular, neurotrophic and neuritogenic substances have demonstrated ready incorporation into nerve cell membranes and an affinity for nerve cell receptor sites. Indications are that these substances are naturally synthesized in tissues in response to neural stimulation and that they subsequently bind to receptors on neurons where they act as nerve growth promoting factors.

Alternatively, the neurologic agent may be combined with substances that possess neurotrophic or neuritogenic properties which, in turn, may assist in transporting the agent to sites of nerve cell damage.

The invention also provides a means for the prevention of brain disorders particularly in cases where the causative factor enters the brain through olfactory neurons. It is preferred that prophylactic treatments be employed where evidence indicates neuronal degeneration in the olfactory neurons as in the case of Alzheimer's disease and other related brain disorders. Prophylactic treatment of brain disease may involve the direct or indirect application of neurologic therapeutic agents to the olfactory epithelium. Such agents may be absorbed into the peripheral olfactory nerve cells to protect those neurons from damage from neurotoxins and other insults and thereby prevent the spread of a disease-causing agent into other areas of the olfactory neural pathway and treat and/or prevent the loss of smell which may be associated with neurodegenerative diseases and aging. As in the foregoing methods of treatment, prophylactic therapies may apply the neurologic agent alone or in combination with a carrier, other neurologic agents, and/or other substances that may enhance the absorption of the agent into the olfactory neurons. Potential neurologic agents include gangliosides, nerve growth factor (NGF), phosphatidylserine (PS), brain-derived neurotrophic factor, fibroblast growth factor, insulin, insulin-like growth factors, ciliary neurotrophic factor, glia-derived nexin, and cholinergic enhancing factors such as phosphoethanolamine and thyroid hormone T.3. GM-1 ganglioside and nerve growth factor (NGF) are among those agents that are particularly preferred for prophylactic treatment of brain disorders.

To deliver the neurologic agent to the olfactory neurons, the agent alone or in combination with other substances as a pharmaceutical composition may be administered to the olfactory area located in the upper third of the nasal cavity. The composition may be dispensed intranasally as a powdered or liquid nasal spray, nose drops, a gel or ointment, through a tube or catheter, by syringe, by packtail, by pledget, or by submucosal infusion.

The optimal concentration of the active neurologic agent will necessarily depend upon the specific neurologic agent used, the characteristics of the patient and the nature of the disease or condition for which the treatment is to be used. The neurologic agent may be used alone or in combination with other substances as a pharmaceutical composition at such concentrations as 30 .mu.M GM-1 ganglioside, 3 nM nerve growth factor (NGF), and 300 .mu.M phosphatidylserine (PS). These concentrations are intended only as examples and do not exclude the use of other concentrations.

The invention is further directed to a pharmaceutical composition comprising an amount of a neurologic agent which is effective in treating or preventing brain disorders in a mammal, when administered thereto, in combination with a pharmaceutlcally-acceptable vehicle such as a liquid or powdered carrier and/or various optional adjuvants. The pharmaceutical composition is particularly useful for treating patients with Alzheimer's disease.

The neurologic therapeutic agent of the pharmaceutical composition may be any substance that promotes the survival of neurons and prevents the further loss of nerve cells. It is preferred that the agent has minimal systemic effects and augments the activity of naturally occurring nerve growth promoting factors. Preferably, the agent acts as a nerve growth promoting factor to prevent degeneration of neurons to induce regrowth of dendrite and axons and to augment the function of remaining neurons such as synthesizing neurotransmitter substances. Among the neurologic agents that are preferred are nerve growth factor (NGF), gangliosides, phosphatidylserine (PS), brain-derived neurotrophic factor, fibroblast growth factor, insulin, insulin-like growth factors, ciliary neurotrophic factor, glia-derived nexin, and cholinergic enhancing factors such as phosphoethanolamine and thyroid hormone T.3.

The carrier of the composition may be any material which is otherwise pharmaceutically-acceptable and compatible with the active ingredients of the composition. Where the carrier is a liquid, it is preferred that the carrier is hypotonic or isotonic with nasal fluids and within the range of pH 4.5-7.5. Where the carrier is in powdered form, it is preferred that the carrier is also within an acceptable non-toxic pH range.

Among the optional substances that may be combined with the neurologic agent in the pharmaceutical composition are lipophilic substances that may enhance absorption of the agent across the nasal membrane and delivery to the brain by means of the olfactory neural pathway. The neurologic agent may be mixed with a lipophilic adjuvant alone or in combination with a carrier. Among the preferred lipophilic substances are gangliosides and phosphatidylserine (PS). One or several lipophilic adjuvants may be combined with the agent. It is preferred that the lipophilic adjuvant be added as micelles.

The pharmaceutical composition may be formulated as a powder, granules, solution, ointment, cream, aerosol, powder, or drops. The solution may be sterile, isotonic or hypotonic, and otherwise suitable for administration by injection or other means. In addition to the neurologic agent, the solution may contain appropriate adjuvants, buffers, preservatives and salts. The powder or granular forms of the pharmaceutical composition may be combined with a solution and with diluting, dispersing and/or surface active agents. Solutions such as nose drops may contain antioxidants, buffers, and the like.

A preferred embodiment of the pharmaceutical composition of the invention is a micellar suspension of GM-1 ganglioside with an effective amount of nerve growth factor (NGF) combined with appropriate amounts of a stabilizer such as microcrystalline cellulose, a suspending agent such as carboxymethyl cellulose or hydroxypropyl methylcellulose, an emulsifier such as polysorbate 80, a preservative such as benzalkonium chloride, an antimicrobial such as phenylethyl alcohol, and a thickener such as dextrose.

The present invention for a method of administering neurologic agents useful in the treatment of brain disorders such as Alzheimer's disease presents several advantages over currently available methods.

The method of the present invention prefers the olfactory neural pathway rather than the bloodstream to deliver agents useful for the treatment of brain disorders such as Alzheimer's disease directly to the brain. Use of the olfactory system to transport a neurologic agent to the brain obviates the blood-brain barrier so that medications like nerve growth factor (NGF), a protein that cannot normally cross that barrier, can be delivered directly to the brain. Although the agent that is administered may be absorbed into the bloodstream as well as the olfactory neural pathway, the agent provides minimal effects systemically. In addition, the invention provides for delivery of a more concentrated level of the agent to neural cells since the agent does not become diluted in fluids present in the bloodstream. As such, the invention provides an improved method of testing potential therapeutic agents against brain disease and of treating neurodegenerative disorders.

The method provides an advantage by virtue of the intranasal administration of the medication. The olfactory system provides a direct connection between the outside environment and the brain thus providing quick and ready delivery of neurologic agents for treatment of neurologic disorders. Moreover, the means of applying a pharmaceutical composition intranasally can be in a variety of forms such as a powder, spray or nose drops which obviates intravenous or intramuscular injections and simplifies the administration of therapeutic medications. As such, the method of the present invention is an improvement over present methods of direct administration of neurologic therapeutic agents, such as the intracerebroventricular pump.

The application of a neurologic therapeutic agent to the nasal epithelium also helps prevent the spread of certain brain disorders by directly treating peripheral olfactory neurons that are injured by neurotoxins and other insults. Prophylactic treatment of these outlying nerve cells helps preclude the entrance of disease-causing agents into the brain. This method of treatment is particularly beneficial in cases of Alzheimer's disease where an environmental factor is suspected of being one of the causative agents of the disease. Application of a neurologic therapeutic agent to the olfactory sensory neurons also in part treats and/or prevents the loss of smell which may be associated with neurodegenerative diseases and ordinary aging.

Another advantage of the invention is that it provides delivery of neurologic agents solely to those areas of the brain affected by disease while avoiding unwanted treatment of brain regions which are free of the disease. The method of the invention employs a neurologic agent or other substance that has an affinity for neuron receptor sites in order to facilitate delivery of the agent directly to the brain through the olfactory epithelium.

Claim 1 of 34 Claims

What is claimed:

1. A method for transporting an insulin-like growth factor to a brain of a mammal, comprising:

applying a pharmaceutical composition comprising the insulin-like growth factor to an upper third of a nasal cavity of the mammal, wherein the insulin-like growth factor is absorbed through a nasal mucosa and transported to the brain of the mammal.

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