Application of J. R. Kilsheimer and H. L. Haynes

349 F.2d 441 | C.C.P.A. | 1965

349 F.2d 441

Application of J. R. KILSHEIMER and H. L. Haynes.

Patent Appeal No. 7361.

United States Court of Customs and Patent Appeals.

July 22, 1965.

Louis C. Smith, New York City, Paul A. Rose, Washington, D. C., for appellants.

Clarence W. Moore, Washington, D. C. (J. F. Nakamura, Washington, D. C., of counsel), for the Commissioner of Patents.

Before WORLEY, Chief Judge, and RICH, MARTIN, SMITH and ALMOND, Judges.

MARTIN, Judge.

1

John R. Kilsheimer and Harry L. Haynes appeal the decision of the board, adhered to on reconsideration, affirming the examiner's rejection of claims 1 and 5, the only claims remaining in their application serial No. 676,368, filed August 5, 1957 for "3-Isopropylphenyl N-Methylcarbamate and Insecticidal Compositions Containing the Same."

2

The invention, a chemical compound which appellants have discovered is an effective insecticide, is claimed as follows:

3

1. 3-Isopropylphenyl N-methylcarbamate.

4

5. The method of killing insects which comprises applying 3-isopropylphenyl N-methylcarbamate to said insects.

5

The compound of the claims, 3-isopropylphenyl N-methylcarbamate, has the following structure:

6

NOTE: OPINION CONTAINING TABLE OR OTHER DATA THAT IS NOT VIEWABLE

7

The 3-position on the phenyl ring is also known as the meta position, that is, a substituent on the 3-position is meta, or m-, to the N-methylcarbamate group. Accordingly, appellants' compound could be called meta- (or m-)isopropylphenyl N-methylcarbamate. Similarly a substituent on the 2-position may be termed an ortho, or o-, substituent, and one on the 4-position may be termed a para, or p-, substituent. We will be concerned with the several positions of a substituent, primarily the isopropyl group, on the ring.

8

Two major classes of insecticides, phosphorus- and chlorine-containing insecticides, suffer from a number of disadvantages, primarily cost, mammalian toxicity, and the growing resistance of insects to those classes of insecticides. Because of such disadvantages, research has been conducted to discover and develop other classes of insecticides. The carbamates, of which the present invention is a member, have proven of value.

9

The dosage of an insecticide which is required to kill 50 per cent of insects, such as houseflies, is known as the LD50. An increase in the LD50 dosage required against succeeding generations of flies bred from the survivors of a treatment shows a tolerance for, or an accommodation or resistance to the insecticide. As well as finding that the 3-isopropylphenyl N-methylcarbamate is lethal to "a wide variety of insects, arachnids and other agricultural and household pests, including aphids, mites, army worm larvae, beetles, flys [sic], roaches and mosquitos [sic]," the compound "is a particularly valuable insecticide, since insect strains controlled by it have not developed immunity to it." Appellants disclose that:

10

* * * It was found in a series of tests that the LD50 (dosage to kill 50 per cent of the flies tested) for the twentieth generation was approximately the same as the LD50 for the starting generation.

11

Appellants disclose a series of tests which indicate that the claimed 3-isopropylphenyl N-methylcarbamate, abbreviated IPMC, is superior to several typical commercial insecticides, compounds X [1,1,1-trichloro - 2,2 - bis - (p - chlorophenyl) ethane], Y [a chlorinated camphene], and Z [3-tertiary-butylphenyl N-methylcarbamate (which it will be seen below is one of the reference compounds)]. The application states:

12
                                    TABLE I

                 Conc. of chemical in mg./100 ml. of water required
                    to kill 95 per cent (LD95)

                  Spider mite      Southern army      House fly
  Compound           adults         worm larvae     (poison bait)    Aphid

  IPMC                   78              40              15            17
  Compound X          > 250              82              28            20
  Compound Y          > 250              14              20            32
13

It can be seen that in Table I IPMC is, with one exception, superior in every way to commercial compounds X and Y.

14

IPMC has also been compared with a closely related carbamate, 3-tertiarybutylphenyl N-methylcarbamate (compound Z) by the above tests, as well as by the Roach Immersion Test, the Mosquito Larvae Test and the House Fly Topical Application Test. The results of these tests are reported in Table II. A cholinesterase determination was also made on these two materials and the results reported in Table III. * * *

15

* * * * * *

16
                                            TABLE II

                                                Southern                               House fly
                                      Spider      army       House fly                  Topical
                        Mosquito       mite       worm        (poison                 Application
  Compound     Roach     larvae       adults     larvae        bait)         Aphid

  IPMC          250       1.4           78         40            15            17           2
  Compd. Z      400       4.6          130         80         > 120***    80          40



                               TABLE III

  Compound       Cholinesterase Inhibition, I50

  IPMC                      1.5 × 10-7
  Compound Z                2.2 × 10-7

Notes:

***

Note: With an acceptable formulation, it is possible to get 30 mg./100 ml. of H2O in solution. This provides 30 per cent kill. Above 30 mg. and including a 120 mg. dosage, a suspension is obtained These suspensions do not increase kill above 30 per cent.

17

It can be seen from Tables II and III that 3-isopropylphenyl N-methylcarbamate is an outstanding insecticide, which is superior in every respect to compound Z.

18

The single reference on which the compound and method of use claims are rejected is:

19

Kolbezen, et al. INSECTICIDE STRUCTURE AND ACTIVITY.

20

Insecticidal Activity of Carbamate Cholinesterase Inhibitors. Agricultural and Food Chemistry, Vol. 2, No. 17, August 18, 1954, pp. 864-70.

21

Kolbezen et al. disclose the preparation and toxic evaluation of some 30 N-methylcarbamate esters of substituted phenols. The Kolbezen et al. paper opens with a short discussion of the reasoning which led them to their compounds. It stands as an example of the predictive approach of which modern chemistry is capable (footnotes omitted):

22

Most of the organic insecticides in common use today were discovered during the routine screening of many miscellaneous chemicals or by the planned synthesis of derivatives of compounds already known to be effective. Few if any have been developed from the biochemical viewpoint of devising an antimetabolite or enzyme antagonist that would possess the proper prerequisites for contact toxicity, although the present status of knowledge in this field seems adequate for such an undertaking.

23

With this general concept in mind, the authors selected the cholinesterase (ChE) enzyme system of insects as a starting point because of its vital function in the neural behavior of the organism and the considerable information available concerning its properties and functions. * * *

24

The carbamic acid esters have long been known to be highly effective inhibitors of cholinesterases, and as such they have pharmacological applications. These compounds have structural configurations that closely resemble the choline esters, and their inhibitory activity occurs from the resulting strong attraction to the active center of the enzyme and their much greater stability to hydrolysis. * * * Therefore, this group of compounds was chosen as the starting point of an investigation of the requirements for converting potent enzyme inhibitors into contact insecticides.

25

Kolbezen et al. continue the background discussion, indicating that their investigation of carbamate esters of phenols was based on the knowledge that:

26

Insect nerves are known to be surrounded by lipoid sheaths, and it is probable that ready penetration of cholinesterase inhibitors into the nervous system is facilitated by non-polar lipoid-soluble molecules rather than by the highly polar quaternary ammonium compounds. Therefore, attention was turned toward the synthesis of a representative series of N-substituted carbamates of substituted phenols. * * *

27

The Kolbezen et al. prediction was correct:

28

Since this investigation was begun, the validity of the assumption that nonpolar lipoid-soluble carbamate derivatives should be contact toxicants has been amply confirmed by extensive investigations of a large series of N-alkyl carbamates of psuedoaromatic [sic] and cyclic alcohols. Certain of these materials, particularly 1-phenyl-3-methylyprazolyl-(5)-dimethylcarbamate (pyrolan) and 1-isopropyl-3-methylpyrazolyl-(5)-dimethylcarbamate (isolan), showed outstanding toxicity to aphids, thrips, flies, and other insects, both by contact and per os.

29

* * *

30

Kolbezen et al. then disclose their N-methylcarbamates to be prepared from the reaction of methyl isocyanate with the desired substituted phenol. Both cholinesterase inhibition and toxicity tests were run, and the following results are taken from their Table 1:

31
                 Table 1. Properties and Biological Activity of
                   N-Methylcarbamates of Various Phenols

                                                                                 Housefly
                                        I50b      LD50         MLCc
  N-Methylcarbamate                                               γ/g                    thrips
     *     *     *     *     *     *     *     *     *     *     *     *     *
    VI   o-Isopropylphenyl            6 × 10-6           100                 0.00018
   VII   p-Isopropylphenyl            7 × 10-5         > 500                 0.023
  VIII   o-tert-Butylphenyl           6 × 10-6            75                 0.00015
    IX   m-tert-Butylphenyl           4 × 10-7            50                 0.00008
     X   p-tert-Butylphenyl          1.5 × 10-4        > 500               > 0.1
     *     *     *     *     *     *     *     *     *     *     *     *     *
   XXI   2-Methyl-5-isopropylphenyl    2 × 10-6        > 500                 0.00025
     *     *     *     *     *     *     *     *     *     *     *     *     *

Notes:

b

Molar concentration for 50% inhibition of fly-brain cholinesterase

c

Median lethal concentration, %

32

Kolbezen et al. state the following concerning the tests:

Discussion of Results

Relation of Structure to Toxicity

33

The results presented in Tables I and II1 indicate the identity of the carbamates synthesized, their toxicity as contact insecticides to the female housefly, Musca domestica L., and to the greenhouse thrips, Heliothrips haemorrhoidalis (Bouche), and the molar concentration required in vitro for 50% inhibition of fly-brain cholinesterase. The more toxic compounds were also evaluated as contact toxicants to the green citrus aphid, Aphis spiraecola Patch, and to the citrus red mite, Paratetranychus citri (McG.). They exhibited approximately the same degree of toxicity to the aphid as to the thrips, but the most effective compound (IX) produced only 73% mortality of the citrus red mite adult at 0.1% concentration. * * *

34

The compound considered by Kolbezen et al. to be the most active compound of those insecticides tested, compound IX, meta-tert-butylphenyl N-methylcarbamate, is the next higher homolog of appellants' claimed compound. The tertbutyl substituent is also disclosed at the ortho and para positions.

35

It is also evident that the Kolbezen et al. compounds VI and VII are respectively the ortho and para position isomers of appellants' compounds, thus:

36

NOTE: OPINION CONTAINING TABLE OR OTHER DATA THAT IS NOT VIEWABLE

37
Kolbezen et al. VI            Kolbezen et al. VII          Appellants'
2-, or ortho-isopropylphenyl  4-, or para-isopropylphenyl  3-, or meta-isopropylphenyl
N-methylcarbamate             N-methylcarbamate            N-methylcarbamate
38

Kolbezen et al. further discuss the relation of structure to toxicity as follows, noting first the relationship between the type of phenyl ring substituent and the cholinesterase inhibition (I50 in Kolbezen et al. Table I above):

39

The nature and extent of substitution of the phenyl rings of the N-methylcarbamates exert a remarkable influence on toxicity. The order of effectiveness of single ring substituents upon cholinesterase inhibition was NO2 < Cl < CH3 < C2H5 < iso-C3H7 < (CH3)2 N < tert-C4H9 < (CH3)3N+I, * * * [Emphasis ours.]

40

Insofar as we are concerned here, that disclosure of Kolbezen et al. indicates the isopropyl group to be a less effective cholinesterase inhibitor than the tertbutyl group as a substituent on the phenyl ring. With regard to contact toxicity, Kolbezen et al. indicate the order of effectiveness of the various substituents quoted just above to be only "roughly in the same order * * *," with an exception which does not concern us here.

41

In discussing the placement of the substituents on the phenyl ring as related to cholinesterase inhibition and toxicity, Kolbezen et al, teach that the meta position is the most effective and para is least:

42

* * * The order of effectiveness of ring position was p < o < m, both for cholinesterase inhibition for toxicity. This, too, is in agreement with previous work involving (CH3)3N+-substituted phennylcarbamates, and seems to be a definite indication of maximum fit or orientation at the enzyme surface, as reflected in similarity of configuration to the normal substrate, probably acetylcholine. * * *

43

[Emphasis ours.]

44

The examiner's position, sustained by the board, was:

45

In view of this clear teaching that the meta isomer is more effective, both for cholinesterase inhibition and for toxicity in instances where the isomers differ only in relationship to their position on the phenyl ring, it is the Examiner's position that the claimed derivative would be glaringly obvious and particularly so when the prior art specifically discloses other meta derivatives to be old. * * * [Emphasis ours.]

46

We agree, since it is our view that the meta or 3-isopropylphenyl N-methylcarbamate and the method of killing insects therewith are rendered entirely obvious to one of ordinary skill in the art by the Kolbezen et al. reference. 35 U.S.C. § 103.

47

The Kolbezen et al. reference discloses a generic class of N-methylcarbamates of substituted phenols, the number and kind of substituents being perhaps even an infinite number. We rely neither on that nor on the broad disclosure of "substituted phenols," in holding appellants' compound to be rendered obvious by Kolbezen et al. Rather, it is the total circumstances, including the specific compounds tested, the limited class of substituents, the showing of position isomers of the specific substituent claimed, the teaching that the specific position (the meta position) is the most toxic, the showing of the adjacent higher homolog in all three possible positions of which the meta is the most active, which lead us to conclude that one of skill in this art would, on reading Kolbezen et al., at once envisage the isopropyl position isomer now claimed by appellants. Although Kolbezen et al. disclose the data only for a "representative series of N-substituted carbamates of substituted phenols," the totality of the disclosure is such as to render the 3-isopropylphenyl N-methylcarbamate of claim 1 entirely obvious. The same is true for "the method of killing insects which comprises applying * * * [the compound] to said insects," in claim 5, since Kolbezen et al. disclose topical "application of 1-microliter drops * * *" of their insecticides to houseflies.

48

It is important to note the Kolbezen et al. compound XXI, 2-methyl-5-isopropylphenyl N-methylcarbamate. The structure of that compound is as follows:

49

NOTE: OPINION CONTAINING TABLE OR OTHER DATA THAT IS NOT VIEWABLE

50

The 5-isopropyl group in compound XXI is meta to the N-methylcarbamate substituent. Kolbezen et al. discuss such multiple substituent carbamates as follows:

51

Where multiple substituents in the ring are concerned, reinforcement of the toxicity of meta-alkylates results from additional alkylation in the ortho-or meta-positions, as in * * 2 - methyl - 5 - isopropylphenyl [N - methylcarbamate] (XXI), * * * [Emphasis ours.]

52

While the dialkylated compound XXI is not appellants' claimed compound, it causes one of ordinary skill in the art to envisage the concept of the isopropyl group specifically in the meta position. Further, since, as quoted just above, Kolbezen et al. disclose the "additional" alkylation in, for example, the 2-(ortho) position, of already meta alkylated compounds, and then names the tested compound XXI (ortho-methyl-meta-isopropylphenyl N-methylcarbamate), we think it unquestionable that the carbamate having the isopropyl group on the meta position alone is entirely obvious.

53

The claimed compound here has the same kind of properties as those disclosed for the Kolbezen et al. position isomers and next higher homolog, albeit the claimed compound is somewhat more effective.

54

Appellants, in arguing non-obviousness, have submitted five affidavits, a literature reference, and have referred to their specification as showing the superiority of the meta-isopropyl compound over the higher homolog, meta-tert-butylphenyl N-methylcarbamate, the ortho and para isopropyl position isomers, and the lower homolog, meta-methylphenyl N-methyl-carbamate.2 Since appellants' affidavits show the claimed meta compound has the same kind of property, toxicity, as the isomers and homologs of Kolbezen et al., they cannot be said to show an unexpected property. Rather, what appellants rely on is that the degree of effectiveness of the claimed compound is unexpected. In view of the Kolbezen et al. teaching that the meta position is most effective, we cannot agree that unexpectedness in the degree of effectiveness has been shown. In re Lohr, 317 F.2d 388, 50 CCPA 1274, 1279.

55

Appellants further point to their specification, the second affidavit, and the literature reference, all as showing that the meta-isopropyl compound is superior to the meta-tert-butyl higher homolog. Appellants urge that Kolbezen et al. teach precisely the opposite by stating:

56

* * * The order of effectiveness of single ring substituents upon cholinesterase inhibition was NO2 < Cl < CH3 < C2H5 < iso-C3H7 < (CH3)2-N < tert-C4H9 < (CH3)3 N+I, and the contact toxicity was roughly in the same order * * * [Emphasis ours.]

57

That order of effectiveness indicates the isopropyl is less effective than the tertbutyl with respect to cholinesterase inhibition. On the other hand, the affidavit is directed to a topical application toxicity test on houseflies. Concerning such tests Kolbezen et al. state only that "contact toxicity was roughly in the same order." [Emphasis ours.] We do not think appellants' showings establish a direct contradiction of the teachings of the order of substituent effectiveness in contact toxicity, or negative all the other teachings of Kolbezen et al., particularly that concerning the position isomers (which the other affidavits in fact confirm), such that it can be said that the claimed compound and method of using it are not obvious.

58

While the specification shows that even for cholinesterase inhibition the metaisopropyl was slightly better than the meta-tert-butyl compound, in a ratio of about 2 to 3, the order of magnitude of concentrations are the same, and thus do not detract from the totality of the evidence showing the obviousness of both appellants' compound and the method of killing insects by application. In re Lohr, supra.

59

The decision of the board is affirmed.

60

Affirmed.

Notes:

1

Table II related to corresponding tests using N-ethyl, N-benzyl, and N-phenylcarbamates of various phenols, and does not concern us here

2

Appellants summarize the showings as follows in their brief (omitting references to the record):

The comparative showings in the record demonstrating the superiority in activity of the present compound over old compound disclosed in the reference can be summarized as follows:

NOTE: OPINION CONTAINING TABLE OR OTHER DATA THAT IS NOT VIEWABLE

1

Moorefield affidavit filed March 31, 1959

2

Applicants' specification, page 15

3

Moorefield affidavit filed March 30, 1962

4

Jour. Econ. Ent. article by S. Mulla

5

Moorefield miticide affidavit filed May 10, 1962

6

Moorefield plum curculio filed test affidavit filed May 10, 1962

7

Haubein affidavit filed May 10, 1962

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