AU5356900A - Treatment of neuromuscular disorders and conditions with different botulinum serotype - Google Patents

Description

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ORIGINAL

COMPLETE

SPECIFICATION

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Applicant(s): Address for Service: Allergan, Inc 2525 Dupont Drive PO Box 19534 Irvine California 92713-9534 United States of America DAVIES COLLISON

CAVE

Patent Trade Mark Attorneys Level 10, 10 Barrack Street SYDNEY NSW 2000 Invention Title: Treatment of neuromuscular disorders and conditions with different botulinum serotype The following statement is a full description of this invention, including the best method of performing it known to me:- 5020 P:NWPDOCS\CAB\SPECIdiv (parent 690862).doc-23A8/00 -1- This application is a divisional of parent application No. 73193/98; in turn a divisional of parent application No. 689115 (formerly No. 70878/94).

The ensuing description is substantially identical to the description of the ,i specification of the parent application. The "parent" description has been readopted to facilitate identification of the parent/divisional relationship. The scope of the invention of this divisional application is set forth in the claims of this specification.

Sdivisional of parent application No. 689115 (formerly No. 70878/94).

this divisional application is set forth in the claims of this specification.

PATENT

1947 TREATMENT OF NEUROMUSCULAR DISORDERS AND CONDITIONs WITH DIFFERENT BOTULINUM SEROTYPE FIELD OF THE INVENTION The present invention provides novel methods for treating diseases of the nervous system, e.g., neuromuscular disorders and conditions, with botulinum toxins. In addition, the present invention provides Smethods useful in all tissue and organ systems which involve the release of neurotransmitters, especially acetylcholine. These cholinergic transmission systems include neuromuscular junctions (muscles), smooth 15 muscles (gut, sphincters, etc.) and secretions (salivation and mucus).

BACKGROUND OF THE INVENTION 20 A bacterial toxin, botulinum toxin, in particular botulinum toxin type A, has been used in the treatment of a number of neuromuscular disorders and conditions involving muscular spasm; for example, strabismus, blepharospasm, spasmodic torticollis (cervical 25 dystonia), oromandibular dystonia and spasmodic dysphonia (laryngeal dystonia). The toxin binds rapidly and strongly to presynaptic cholinergic nerve terminals and inhibits the exocytosis of acetylcholine by decreasing the frequency of acetylcholine release.

This results in local paralysis and hence relaxation of the muscle afflicted by spasm.

For one example of treating neuromuscular disorders, see U.S. Patent No. 5,053,005 to Borodic, which suggests treating 'curvature of the juvenile

PATENT

spine, scoliosis, with an acetylcholine release inhibitor, preferably botulinum toxin A.

For the treatment of strabismus with botulinum toxin type A, see Elston, et al., British Journal of Ophthalmology, 1985, 69, 718-724 and 891- 896. For the treatment of blepharospasm with botulinum toxin type A, see Adenis, et al., J.

Fr. Ophthalmol., 1990, 13 at pages 259-264. For treating squint, see Elston, Eye, 1990, 4(4):VII. For treating spasmodic and oromandibular dystonia torticollis, see Jankovic et al., Neurology, 1987, 37, 616-623.

15 Spasmodic dysphonia has been treated with botulinum toxin type A. See Blitzer et al., Ann.

Otol. Rhino. Laryngol, 1985, 94, 591-594. Lingual dystonia was treated with botulinum toxin type

A

according to Brin et al., Adv. Neurol. (1987) 50, 599- 608. Finally, Cohen et al., Neurology (1987) 37 (Suppl. 123-4, discloses the treatment of writer's cramp with botulinum toxin type A.

9.

The term botulinum toxin is a generic term 25 embracing the family of toxins produced by the anaerobic bacterium Clostridium botulinum and, to date, seven immunologically distinct neurotoxins serotype have been identified. These have been given the designations A, B, C, D, E, F and G. For further information concerning the properties of the various botulinum toxins, reference is made to the article by Jankovic and Brin, The New England Journal of Medicine, No. 17, 1990, pp. 1186-1194, and to the review by Charles L. Hatheyay in Chapter 1 of the book entitled Botulinum Neurotoxin and Tetanus Toxin, L. L.

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Simpson, Ed., published by Academic Press Inc. of San Diego, California, 1989, the disclosures in which are incorporated herein by reference.

The neurotoxic component of botulinum toxin has a molecular weight of about 150 kilodaltons and is thought to comprise a short polypeptide chain of about kD which is considered to be responsible for the toxic properties of the toxin, by interfering with the exocytosis of acetylcholine, by decreasing the frequency of acetylcholine release, and a larger polypeptide chain of about 100 kD which is believed to be necessary to enable the toxin to bind to the presynaptic membrane. The "short" and "long" chains are 15 linked together by means of a simple disulfid bridge.

(It is noted that certain serotype of botulinum toxin, type E, may exist in the form of a single chain un-nicked protein, as opposed to a dichain. The single chain form is less active but may be converted 20 to the corresponding dichain by nicking with a protease, trypsin. Both the single and the dichain are useful in the method of the present invention.) 25 Immunotoxin conjugates of ricin and antibodies, which are characterized as having enhanced cytotoxicity through improving cell surface affinity, are disclosed in European Patent Specification 0 129 434.

The inventors note that botulinum may be utilized in place of ricin.

Botulinum toxin is obtained commercially by establishing and crowing cultures of C. botulinum in a fermenter and then harvesting and purifying the fermented mixture in accordance with known techniques.

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Botulinum toxin type A, the toxin type generally utilized in treating neuromuscular conditions, is currently available commercially from several sources; for example, from Port Products Ltd. UK, under the trade name "DYSPORT," and from Allergan, Inc., Irvine, California, under the trade name BOTOX*.

It has been found, however, that some patients experience a loss of clinical responsiveness to botulinum toxin injections. One explanation for this action is that the patient has developed neutralizing antibodies or an immune response to, for example, botulinum toxin type A. Alternatively, the type of immune response may be different from just 15 neutralizing antibodies. These include: Allergic reaction where there is immediate local swelling, redness and itching. This may also be associated with general flu-like symptoms. A delayed-type hypersensitivity manifested as swelling and redness at 20 the injection site 48 to 72 hours after injection.

Or, a serum sickness-like response where thepatient experiences flu-like symptoms. All of these *immune-based reactions to type A dictate alternate serotype therapy to maintain clinical benefits.

A further hypothesis may explain loss of clinical responsiveness to botulinum toxin injections. This does not include interaction of other medications which may interfere with the action of botulinum toxin angiotensin converting enzyme inhibitor class of antihypertensives and other endopeptidase inhibitors, aminopyridines, acetylcholine esterase inhibitors, etc.). One possible explanation for the loss of responsiveness is an alteration in the neuronal binding of toxin to the presynaptic

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cholinergic nerve terminal. An alternation of gangliocides could reduce the binding efficacy of the toxin and thus reduce the amount of toxin internalized. Alternatively, an induction of proteases may cause an enhanced breakdown of the toxin either in the extracellular milieu or within the neuron. Finally, the neuron may change the amino acid composition of the target protein for the light chain of the toxin to reduce or eliminate its effect on the exocytotic mechanism.

It is one object of the invention to provide novel treatments of neuromuscular disorders and conditions with botulinum toxin type A followed with treat- 15 ments of botulinum toxin types B, C, D, E, F and G.

SUMMARY OF THE INVENTION The present invention provides a method of 20 treating a neuromuscular disorder or condition such as strabismus and other disorders of ocular motility,comitant and vertical strabismus, lateral rectus palsy, nystagmus, dysthyroid myopathy, etc.; dystonia, focal dystonias such as spasmodic torticollis, 25 writer's cramp, blepharospasm, oromandibular dystonia and the symptoms thereof, bruxism, Wilson's disease, tardive dystonia, laryngeal dystonia etc.; other dystonias, tremor, tics, segmental myoclonus; spasms, such as spasticity due to chronic multiple sclerosis, spasticity resulting in abnormal bladder control, in patients with spinal cord injury, animus, back spasm, charley horse etc.; tension headaches; levator pelvic syndrome; spina bifida, tardive dyskinesia; Parkinson's and limb (focal) dystonia and stuttering, etc. of a patient,

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which method comprises administering to the patient suffering from said disorder or condition a therapeutically effective amount of a botulinum A followed with a neurotoxin of a different serotype, one selected from the group consisting of botulinum toxin types B, C, D, E, F and G.

The clinical features of the above-listed neuromuscular disorders and conditions are described in Jankovic and Brin, cited above, and in Quinn, Disorders of Movement, Academic Press, 1989, all of which are incorporated herein by reference.

15 The present invention further provides compositions of said botulinum toxins in a vehicle suitable for injection of said toxins into the appropriate region of the patient to be treated.

Alterations of the vehicle and excipient may include 20 materials designed to retain the injected toxin in the n local area.

*5 The present invention further provides a method for treating neuromuscular disorders or conditions in 25 which the patient experiences a loss of clinical response to an initial treatment of botulinum toxin.

More specifically, a method in accordance with the present invention includes administering to the patient a therapeutically effective amount of botulinum toxin of a different serotype until the patient experiences loss of clinical response to the administered botulinum toxin and thereafter administering to the patient another botulinum toxin

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of the selected serotype, said another botulinum toxin being administered in therapeutically effect amounts.

More particularly, the method in accordance with the present invention includes initial treatment with botulinum toxin type A followed by treatment with another botulinum toxin selected from the group consisting of types B, C, D, E and F.

Alternatively, the initial treatment may be with botulinum toxin type B followed by another botulinum toxin serotype selected from the group consisting of types A, C, D, E and F.

15 An alternative embodiment of the present invention includes the administration to a patient of a therapeutically effective amount of botulinum toxin of a selected serotype until the patient develops neutralizing antibodies and thereafter administration 20 to the patient of another botulinum toxin of a different serotype, said another botulinum toxin beingadministered in a therapeutically effective amount.

DETAILED DESCRIPTION The botulinum toxins used according to the present invention are botulinum toxin serotype A, B, C, D, E, F and G.

Each serotype of botulinum toxin has been identified as immunologically different proteins through the use of specific antibodies. For example, if the antibody (antitoxin) recognizes, that is, neutralizes the biologica activity of, for example, type A it will not recognize types B, C, D, E, F or G.

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While all of the botulinum toxins appear- -to be zinc endopeptidases, the mechanism of action of different serotypes, for example, A and E within the neuron appear to be different than that of type B. In addition, the neuronal surface "receptor" f or the toxin appears to be different for the serotypes.

The physiologic groups of Cl ostri diurn botulinun types are listed in Table I.

Table L. Physiologic Groups of Obtsidlum botuilraum e

C

C.

C

C

C. C

C

Ihn Dipa bfim &Uid Rdstd ABF proteolytic SaCchaivytic II B,EF UnPrMoteoYtiC Saccharolytw psychotrophic II C D nonprotcolytic saccharolytic C noyi IV G Proteolytic nonsaccharolytic C subterminale These toxin types may be produced by selection from- 20 the appropriate physiologic group of Clostridium botulinun organisms. the organisms designated as Group I are usually referred to as proteolytic and produce botulinun toxins of types A, B and F. The organisms designated as Group II are saccharolytic and produce botulinum toxins of types B, E and F. The organisms designated as Group III produce only botulinum toxin types C and D and are distinguished f rom. organisms of Groups I and II by the production of significant amounts of propionic acid. Group

IV

organisms only produce neurotoxin of type G.

The production of anyv and all of the botulinum toxin types A, B, C, D, E, F and G are described in

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Chapter 1 of Botulinum Neurotoxin and Tetanus Toxin, cited above, and/or the references cited therein.

Botulinum toxins types B, C, D, E, F and G are also available from various species of clostridia.

Currently fourteen species of clostridia are considered pathogenic.

Most of the pathogenic strains produce toxins which are responsible for the various pathological signs and symptoms. Organisms which produce botulinum toxins have been isolated from botulism outbreaks in humans (types A, B, E and F) and animals (types C and Their identities were described through the use of specific antitoxins (antibodies) developed against o. 15 the earlier toxins. Type G toxin was found in soil and has low toxigenicity. However, it has been isolated from autopsy specimens, but thus far there has not been adequate evidence that type G botulism has occurred in humans.

In general, four physiologic groups of C.botulinum are recognized II, III, IV). The organisms capable of producing a serologically distinct toxin may come from more than one physiological group. For example, Type B and F toxins can be produced by strains from Group I or II. In addition, other strains of clostridial species (C.

baratii, type F; C. butyricum, type E; C. novyi, type

C

1 or D) have been identified which can produce botulinum neurotoxins.

Preferably, the toxin is administered by means of intramuscular injection directly into a spastic muscle, in the region of the neuromuscular junction, although alternative types of administration

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subcutaneous injection), which can deliver the toxin directly to the affected muscle region, may be employed where appropriate. The toxin can be presented as a sterile pyrogen-free aqueous solution or dispersion and as a sterile powder for reconstitution into a sterile solution or dispersion.

Where desired, tonicity adjusting agents such as sodium chloride, glycerol and various sugars can be added. Stabilizers such as human serum albumin may also be included. The formulation may be preserved by

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means of a suitable pharmaceutically acceptable preservative such as a paraben, although preferably it is i. unpreserved.

It is preferred that the toxin is formulated in unit dosage form; for example, it can be provided as a sterile solution in a vial or as a vial or sachet containing a lyophilized powder for reconstituting a suitable vehicle such as water for injection.

In one embodiment, the botulinum toxin is formulated in a solution containing saline and pasteurized human serum albumin, which stabilizes the 25 toxin and minimizes loss through non-specific adsorption. The solution is sterile filtered (0.2 micron filter), filled into individual vials and then vacuumdried to give a sterile lyophilized powder. In use, the powder can be reconstituted by the addition of sterile unpreserved normal saline (sodium chloride 0.9% for injection).

The dose of toxin administered to the patient will depend upon the severity of the condition; e.g., the number of muscle groups requiring treatment, the -11-

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age and size of the patient and the potency of the toxin. The potency of the toxin is expressed as a multiple of the LDso value for the mouse, one unit (U) of toxin being defined as being the equivalent amount of toxin that kills 50% of a group of 18 to 20 female Swiss-Webster mice, weighing 20 grams each.

The dosages used in human therapeutic applications are roughly proportional to the mass of muscle being injected. Typically, the dose administered to the patient may be up to about 1,000 units; for example, up to about 500 units, and preferably in the range from about 80 to about 460 units per patient per treatment, although smaller of larger doses may be administered in appropriate circumstances.

As the physicians become more familiar with the use of this product, the dose may be changed. In the botulinum toxin type A, available from Porton, DYSPORT, 1 nanogram (ng) contains 40 U. 1 ng of the botulinum toxin type A, available from Allergan, Inc.,- BOTOX*, contains 4 U. The potency of botulinum toxin and its long duration of action mean that doses will tend to be administered on an infrequent basis.

Ultimately, however, both the quantity of toxin administered and the frequency of its administration will be at the discretion of the physician responsible for the treatment and will be commensurate with questions of safety and the effects produced by the toxin.

The invention will now be illustrated by reference to the following nonlimiting examples.

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PATENT

In each of the examples, the appropriate muscles of each patient are injected with sterile solutions containing the botulinum toxins. Total patient doses range from 80 U to 460 U. Before injecting any muscle group, careful consideration is given to the anatomy of the muscle group, the aim being to inject the area with the highest concentration of neuromuscular junctions, if known. Before injecting the muscle, the position of the needle in the muscle is confirmed by putting the muscle through its range of motion and observing the resultant motion of the needle end.

General anaesthesia, local anaesthesia and sedation are used according to the age of the patient, the number of sites to be injected, and the particular S. 15 needs of the patient. In accordance with the present invention, multiple injections are necessary to achieve the desired result, due to the patient's experiencing loss of clinical response to an initial treatment. Also, some injections, depending on the muscle to be injected, may require the use of fine, hollow, teflon-coated needles, guided byelectromyography.

Following injection, it is noted that there are 25 no systemic or local side effects and none of the patients are found to develop extensive local hypotonicity. The majority of patients show an improvement in function both subjectively and when measured objectively.

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Example i The Use of Botulinum Toxin Serotpe A. B and F in the Treatment of Tardive Dyskinesia A patient, suffering from tardive dyskinesia resulting from the treatment with an antipsychotic drug, such as haloperidol, is treated with an effective amount of botulinum toxin type A by direct injection of such toxin into the muscles identified by the physician. After two to four days, the symptoms of tardive dyskinesia, orofacial dyskinesia, athetosis, dystonia, chorea, tics and facial grimacing, etc., are markedly reduced. Upon continued administration of the botulinum toxin type A, a loss 15 of clinical response is noted. Thereafter, an effective amount of botulinum toxin type Bjs injected and the symptoms of tardive dyskinesia continue to be markedly reduced.

20 Example 1 a) The method of Example 1 is repeated, except that a patient suffering from tardive dyskinesia is injected with an effective amount of botulinum toxin type A, followed by injection of an effective amount of botulinum toxin type C. Similar results are obtained.

Example 1(b) The method of Example 1 is repeated, except that a patient suffering from tardive dyskinesia is injected with an effective amount of botulinum toxin type A, followed by injection of an effective amount -14-

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of. botulinum toxin type D. Similar results are obtained.

Example I(c) The method of Example 1 is repeated, except that a patient suffering from tardive dyskinesia is injected with an effective amount of botulinum toxin type A, followed by injection of an effective amount of botulinum toxin type E. Similar results are obtained.

Example 1(d) The method of Example 1 is repeated, except that a patient suffering from tardive dyskinesia is injected with an effective amount of botulinum toxin type A, followed by injection of an effective amount of botulinum toxin type F. Similar results are obtained.

Example 2 Use of Botulinum Toxin in the Treatment of Spasmodic Torticollis A male, suffering from spasmodic torticollis, as manifested by spasmodic or tonic contractions of the neck musculature, producing stereotyped abnormal deviations of the head, the chin being rotated to one side, and the shoulder being elevated toward the side at which the head is rotated, is treated by injection with up to about 300 units, or more, of botulinum toxin type E, (having an activity of one to four days) in the dystonic neck muscles. After the symptoms are substantially alleviated and the patient is able to

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hold his head and shoulder in a normal position, the patient develops antibodies. Thereafter the patient is injected with botulinum toxin type B and the symptoms continue to be substantially alleviated.

Although there has been hereinabove described a use of botulinum toxin serotype for treating neuromuscular disorders and conditions in accordance with the present invention, for the purpose of illustrating the manner in which the invention may be used to advantage, it should be appreciated that the invention is not limited thereto since many obvious modifications can be made, and it is intended to include within this invention any such modifications 15 as will fall within the scope of the appended claims.

Accordingly, any and all modifications, variations, or equivalent arrangements which may occur to those skilled in the art, should be considered to be within the scope of the present invention as defined in the 20 appended claims.

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Claims (9)

1. A method of treating a patient suffering from a neuromuscular disorder or condition, said method comprising administering to the patient a therapeutically effective amount of botulinum toxin of a selected serotype until the patient experiences loss of clinical response to the administered botulinum toxin and thereafter administering to the patient another botulinum toxin of a different serotype, said another botulinum toxin being administered in therapeutically effective amounts provided that, when the first-administered botulinum toxin Sis a Type A toxin, the second-administered toxin is other than type E.

2. The method according to claim 1 wherein the botulinum toxin is type A and said another botulinum toxin selected from the group consisting of types B, C, D and F.

3. The method according to claim 1 wherein the botulinum toxin is type E and said 15 another botulinum toxin is selected from the group consisting of types A, B, C, D and F.

4. A method of treating a patient suffering from a neuromuscular disorder or condition, Ssaid method comprising administration to the patient of a therapeutically effective amount of botulinum toxin of a selected serotype until the patient develops neutralizing antibodies and 20 thereafter administering to the patient another botulinum toxin of a different serotype, said another botulinum toxin being administered in a therapeutically effective amount provided that, when the first-administered botulinum toxin is a Type A toxin, the second-administered toxin is other than Type E.

5. The method according to claim 4 wherein the botulinum toxin is type A and said another botulinum toxin is selected from the group consisting of types B, C, D, and F.

6. The method according to claim 4 wherein the botulinum toxin is type B and said another botulinum toxin is selected from the group consisting of types A, C, D, E and F. PA\WPDOCSpA'CLAjMSj69WM2WpD.25/6/98 -17-

7. A method of treating a patient suffering from a neuromuscular disorder or condition, said method comprising administering to the patient a therapeutically effective amount of botulinum toxin serotype A until the patient develops neutralizing antibodies and thereafter administering to the patient a therapeutically effective amount of a different serotype of botulinum toxin the said different serotype of botulinum toxin being other than Type E.

8. The method according to claim 7 wherein the different serotype comprise botulinum toxin types B, C, D, and F. 10

9. A method of treating a patient suffering from a neuromuscular disorder or condition said method comprising administering to the patient a therapeutically effective amount of botulinum toxin type B until the patient develops neutralizing antibodies and thereafter administering to the patient a therapeutically effective amount of a serotype different from botulinum toxin type B. se e The method according to claim 9 wherein the different serotype comprise botulinum C. toxin types A, C, D, E and F. C DATED this 23rd day of August

2000. ALLERGAN INC By Its Patent Attorneys DAVIES COLLISON CAVE