PHARMACEUTICAL COMPOSITION COMPRISING ORGANOID AND ANTI-INFLAMMATORY AGENT FOR PREVENTING OR TREATING INFLAMMATORY BOWEL DISEASE

Abstract

The present disclosure relates to a pharmaceutical composition for preventing or treating inflammatory bowel disease, comprising an intestinal organoid and a TNFα inhibitor.

The combination use of the intestinal organoid and TNFα inhibitor according to the present disclosure can alleviate symptoms of inflammatory bowel disease such as weight loss, diarrhea, and bloody stool, and can inhibit fibrosis of the intestinal mucosa due to inflammation. In particular, when the intestinal organoid and the anti-inflammatory TNFα inhibitor are used in combination, the therapeutic effect is significantly superior to that of multiple administrations of the TNFα inhibitor, and thus it can be usefully used as an agent for preventing or treating inflammatory bowel disease.

Claims

1. A pharmaceutical composition for preventing or treating inflammatory bowel disease, comprising an intestinal organoid and a TNFα inhibitor, wherein the inflammatory bowel disease is one or more selected from the group consisting of ischemic colitis, intestinal Behcet’s disease, Crohn’s disease, ulcerative colitis and ulcerative proctitis.

2. The pharmaceutical composition according to claim 1, wherein the TNFα inhibitor is a compound, a peptide, a peptide mimetic, a fusion protein, an antibody, an aptamer, or antibody drug conjugate (ADC) that binds specifically to TNFα protein.

3. The pharmaceutical composition according to claim 1, wherein the TNFα inhibitor is an antisense nucleic acid, a siRNA, a shRNA, a miRNA or a ribozyme that binds in a complementary manner to a DNA or a mRNA of TNFα.

4. (canceled)

5. The pharmaceutical composition according to claim 1, wherein the composition decreases Disease Activity Index (DAI).

6. The pharmaceutical composition according to claim 1, wherein the composition improves or ameliorates one or more symptoms selected from the group consisting of weight loss, stool consistency and fecal occult blood in a subject.

7. The pharmaceutical composition according to claim 1, wherein the composition inhibits or ameliorates fibrosis caused by inflammation.

8. The pharmaceutical composition according to claim 1, wherein the intestinal organoid and the TNFα inhibitor are administered simultaneously, sequentially, or individually to a subject.

Description

BRIEF DESCRIPTION OF FIGURES

[0040] FIG. 1 is a schematic diagram of a method for inducing inflammatory bowel disease using DSS, transplanting an intestinal organoid and administering a TNFα inhibitor.

[0041] FIG. 2 is an image showing the results of H&E staining and GFP/DAPI analysis of intestinal tissue in which a combination of intestinal organoids and TNFα inhibitors are administrated.

[0042] FIG. 3 is a graph showing the survival rate of subjects with inflammatory bowel disease, wherein the subject had single administration of a TNFα inhibitor, multiple administration of a TNFα inhibitor, transplantation of an intestinal organoid alone, or a combination of an intestinal organoid and a TNFα inhibitor.

[0043] FIG. 4 is a graph showing the degree of weight gain or loss of subjects with inflammatory bowel disease, wherein the subject had single administration of a TNFα inhibitor, multiple administration of a TNFα inhibitor, single transplantation of an intestinal organoid, or a combination of an intestinal organoid and a TNFα inhibitor. A shows the increase/decrease rate of body weight, and B shows the final measured weight (g).

[0044] FIG. 5 is a graph showing the degree of DAI (disease activity index) increase or decrease of subjects with inflammatory bowel disease, wherein the subject had single administration of a TNFα inhibitor, multiple administration of a TNFα inhibitor, single transplantation of an intestinal organoid, or a combination of an intestinal organoid and a TNFα inhibitor. A shows the increase/decrease ratio of DAI, and B shows the final scored DAI.

[0045] FIG. 6 is a schematic diagram of a method for inducing inflammatory bowel disease using TNBS, transplanting an intestinal organoid and administering a TNFα inhibitor.

[0046] FIG. 7 is an image showing intestinal tissue in a subject with inflammatory bowel disease, wherein the subject had administration of a TNFα inhibitor alone, transplantation of an intestinal organoid alone, or a combination of an intestinal organoid and a TNFα inhibitor.

[0047] FIG. 8 is a graph showing the survival rate of subjects with inflammatory bowel disease, wherein the subject had administration of a TNFα inhibitor alone, transplantation of an intestinal organoid alone, or a combination of an intestinal organoid and a TNFα inhibitor.

[0048] FIG. 9 is a graph showing the degree of weight gain or loss of subjects with inflammatory bowel disease, wherein the subject had administration of a TNFα inhibitor alone, transplantation of an intestinal organoid alone, or a combination of an intestinal organoid and a TNFα inhibitor.

[0049] FIG. 10 is a graph showing the degree of modified UCEIS (Ulcerative Colitis Endoscopic Index of Severity) in subjects with ulcerative colitis, wherein the subject had administration of a TNFα inhibitor alone, transplantation of an intestinal organoid alone, or a combination of an intestinal organoid and a TNFα inhibitor.

[0050] FIG. 11 is a graph showing the degree of DAI (disease activity index) increase or decrease in subjects with inflammatory bowel disease, wherein the subject had administration of a TNFα inhibitor alone, transplantation of an intestinal organoid alone, or a combination of an intestinal organoid and a TNFα inhibitor.

[0051] FIG. 12 is an image showing the results of H&E staining and GFP/DAPI analysis of intestinal tissue in which a combination of intestinal organoids and TNFα inhibitors are used.

[0052] FIG. 13 is a graph showing the degree of intestinal length increase or decrease in subjects with inflammatory bowel disease, wherein the subject had administration of a TNFα inhibitor alone, transplantation of an intestinal organoid alone, or a combination of an intestinal organoid and a TNFα inhibitor.

[0053] FIG. 14 is an image showing the degree of intestinal length increase or decrease in subjects with inflammatory bowel disease, wherein the subject had administration of a TNFα inhibitor alone, transplantation of an intestinal organoid alone, or a combination of an intestinal organoid and a TNFα inhibitor.

EXAMPLES

[0054] Hereinafter, the present disclosure will be described in more detail by Examples. However, these examples are only for illustrative purposes, and the scope of the present disclosure is not limited thereto.

Example 1. Effects on DSS-Induced Inflammatory Bowel Disease

Example 1-1. Combination and Transplantation

[0055] First, intestinal organoids were transplanted into an inflammatory bowel disease mouse model, and an anti-inflammatory agent was administered to confirm the prevention or treatment efficacy of inflammatory bowel disease by the combination of the intestinal organoid and anti-inflammatory agent.

[0056] Specifically, the inflammatory bowel disease mouse model was prepared by feeding C57BL/6 mice (male, 10 weeks, average body weight 24 g) a drinking water with 4 v/v% DSS (dextran sulfate sodium) for 5 days, and then changing to a normal drinking water. When DSS mixed with a drinking water was orally administered, an acute colitis with edema, redness, ulcer and bloody stool was induced throughout the whole intestine, and infiltration of neutrophils into the tissues is observed. As time passes, lymphocytes were infiltrated and chronic inflammation was showed.

[0057] Then, a total of 2 transplants of GFP-expressing mouse intestinal organoids were performed at a number of 5 × 10.sup.5 cells/animal on the 7th day (day 7) and the 10th day (day 10) from the start of the experiment. Transplantation was carried out by an endoscopic transplantation method, wherein an intestinal organoid in the form of a clump mixed with 50 .Math.l of fibrinogen was administered first, and 50 .Math.l of thrombin was administered secondarily. A TNFα inhibitor was used as an anti-inflammatory agent, and 100 .Math.l of an anti-mouse TNFα antibody (5 mg/kg, BioLegend) was intraperitoneally injected. At this time, single administration was performed on the 8th day (day 8), one day after the transplantation on the 7th day. In the case of multiple administration, a total of 5 administrations (day 8, day 10, day 12, day 14, day 16) were performed at two-day intervals, including the 8th day.

[0058] An overview of inflammatory bowel disease induction, intestinal organoid transplantation, and TNFα inhibitor administration is shown in FIG. 1, and the control group and experimental group are summarized in Table 1 below.

TABLE-US-00001 Intestinal organoids TNFα inhibitor (anti-mouse TNFα antibody) Normal control group - - Negative control group (Vehicle) - - Experimental group 1 - Single administration Experimental group 2 - Five times administration Experimental group 3 Twice transplantation - Experimental group 4 Twice transplantation Single administration

[0059] Thereafter, lesions of the intestinal mucosa and transplanted intestinal organoids were observed through colonoscopy at intervals of 1 to 2 weeks from the start date of the experiment.

[0060] As a result, as shown in FIG. 2, it was confirmed that the transplanted intestinal organoids were well engrafted in the intestinal tissue.

Example 1-2. Survival Rate

[0061] After transplanting the intestinal organoid and administering the TNFα inhibitor by the method according to Example 1-1, the survival rate of the subject was evaluated as a prevention or treatment effect of inflammatory bowel disease.

[0062] Specifically, the survival rate of the subject following the intestinal organoid transplantation and the TNFα inhibitor administration was calculated in the following formula for each group when the number of the subject decreased, and was evaluated using the Kaplan-Meier survival assay.

[0063] Survival rate of subject = number of survived animals/total number of animals × 100 (%)

[0064] As a result, FIG. 3 shows that in the negative control group suffering from inflammatory bowel disease, all the mice died on the 10th day after the start of the experiment.

[0065] In addition, in the case of Experimental Groups 1 and 2, in which only the TNFα inhibitor was administered single or multiple times, and Experimental Group 3, in which only the intestinal organoid was transplanted alone, the subjects started to die from the 10th day (2 or 3 days after the first single use). On the 15th day (7 or 8 days after the first single use), more than half of the subjects died, recording a survival rate of about 40%.

[0066] On the contrary, in the case of Experimental Group 4, in which the intestinal organoid and TNFα inhibitor were used in combination, the subjects started to die from the 10th day (2 days after the first combination), but the number of surviving subjects was higher than that of the subjects using the intestinal organoid or TNFα inhibitor alone. The survival rate of about 50% was recorded until the 18th day (10 days after the first combination), showing that the survival rate significantly increased by about 10% compared to the case of using the intestinal organoid or TNFα inhibitor alone.

[0067] That is, there was no difference in the survival rate between single administration and multiple administration of the TNFα inhibitor, and the effect of using an intestinal organoid in combination with a single administration of the TNFα inhibitor was significantly more than that of multiple administration of the TNFα inhibitor by about 10% or more.

[0068] From the results above, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited excellent synergistic effects in the prevention or treatment of inflammatory bowel disease.

Example 1-3. Body Weight

[0069] After transplanting the intestinal organoid and administering the TNFα inhibitor by the method according to Example 1-1, the body weight of the subject was evaluated as a prevention or treatment effect of inflammatory bowel disease.

[0070] Specifically, the change in body weight of mouse after administration of DSS and a therapeutic substance was observed daily. Assuming that the subject’s body weight before the start of the test is 100%, the pattern of the decrease in body weight due to DSS-induced bowel disease and the increase in the body weight according to the treatment with a therapeutic substance was graphed. At the end of the test, one-way ANOVA was performed for the difference in body weight between each group using the GraphPad Prism ver.3 statistical program, and the significance of the treatment effect was confirmed by performing the Tukey post hoc test (* p-value < 0.05).

[0071] As a result, as shown in A and B of FIG. 4, the negative control group suffering from inflammatory bowel disease lost about 30% in body weight compared to the normal control group on the 10th day after the start of the experiment, and after that, all subjects died.

[0072] In addition, in the case of Experimental Groups 1 and 2, in which only the TNFα inhibitor was administered single or multiple times, and Experimental Group 3, in which only the intestinal organoid was transplanted alone, the body weight decreased by about 30-40% compared to the normal control group until the 15th day of the experiment (7 days or 8 days after the first single use). After that, the body weight increased slightly, and on the 23rd day of the experiment (15 days or 16 days after the first single use), the weight loss rate was about 20 to 25% compared to the normal control group.

[0073] Specifically, on the 23rd day of the experiment (15 days or 16 days after the first single use), compared to the normal control group, the weight loss rate was about 20% in Experimental Group 1 (single administration of TNFα inhibitor alone), 25% in Experimental Group 2 (multiple administration of TNFα inhibitor alone), and 22% in Experimental Group 3 (transplantation of intestinal organoids alone).

[0074] On the contrary, in the case of experimental group 4 in which the intestinal organoid and TNFα inhibitor were used in combination, the body weight decreased by about 25% compared to the normal control group by the 10th day (2 days after the first combination). After that, the body weight increased significantly, and on the 23rd day of the experiment (15 days after the first combination), the weight decreased by about 15% compared to the normal control group. In addition, it was confirmed that the survival rate was significantly increased by about 10% compared to the case of using drug alone.

[0075] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited excellent synergistic effects for the prevention or treatment of inflammatory bowel disease, and the combination use has a better therapeutic effect than multiple administration of the TNFα inhibitor.

Example 1-4. DAI (Disease Activity Index)

[0076] After transplanting the intestinal organoid and administering the TNFα inhibitor by the method according to Example 1-1, a reduction effect on the disease activity index (DAI) of the subject was confirmed as prevention or treatment effect of inflammatory bowel disease.

[0077] Specifically, DAI was analyzed for parameters consisting of weight loss, stool consistency, and fractional occult blood. After observing the symptoms for each parameter, they were scored according to the degree of change, and by summing them up. After that, the symptoms were classified as follows: DAI of 0 to 1 is normal, DAI of 2 to 4 is mild, DAI of 5 to 7 is severe, and DAI of 8 to 10 is critical.

TABLE-US-00002 Parameters Change Score Weight loss 0 0 1≤5 Weight% 1 5≤10 Weight% 2 10≤20 Weight% 3 .Math. 20 Weight% 4 Stool consistency negative 0 wet 1 soft 2 diarrhea 3 Fecal occult blood normal 0 bloody stool 1 blood around the anus 2 gross bleeding 3

[0078] As a result, as shown in A and B of FIG. 5, the negative control group not administering the intestinal organoid nor the TNFα inhibitor showed severe inflammatory bowel disease symptoms in which the DAI increased to about 6 compared to the normal control group on the 10th day of the experiment, and after that, all subjects died. In addition, in the case of Experimental Groups 1 and 2, in which only the TNFα inhibitor was administered single or multiple times, and Experimental Group 3, in which only the intestinal organoid was transplanted alone, the DAI increased to about 6 to 7 which showed severe inflammatory bowel disease symptoms until the 15th day of the experiment (7 days or 8 days after the first single use). The DAI decreased slightly to about 5 to 6 on the 23rd day of the experiment (15 days or 16 days after the first single use), but the inflammatory bowel disease symptoms were still severe. Specifically, on the 23rd day of the experiment (15 days or 16 days after the first single use), compared to the normal control group, the DAI was about 5.5 in Experimental Group 1 (single administration of TNFα inhibitor alone), 6 in Experimental Group 2 (multiple administration of TNFα inhibitor alone), and 5 in Experimental Group 3 (transplantation of intestinal organoids alone).

[0079] On the contrary, in the case of Experimental Group 4 in which the intestinal organoid and TNFα inhibitor were used in combination, the DAI increased to about 6 which showed severe inflammatory bowel disease symptoms by the 13th day (5 days after the first combination). After that, the DAI decreased to about 3 which showed mild inflammatory bowel disease symptoms on the 23rd day of the experiment (15 days after the first combination). It was confirmed that the DAI was significantly decreased by about 2 to 3 compared to the case of using drug alone, which means that the symptoms relieved from severe to mild.

[0080] That is, with respect to the DAI, the effect of multiple administration of the TNFα inhibitor is better than that of the single administration of the TNFα inhibitor. However, the combination use of an intestinal organoid and the TNFα inhibitor (single administration) showed remarkably better effect of reducing DAI by 2 to 3 than the multiple administration of the TNFα inhibitor.

[0081] In particular, in the case of Experimental Group 4 of the combination, the DAI decreases sharply from the 13th day (after 5 days of the first combination) of the start of the experiment. Considering that in the case of Experimental Groups 1 to 3 of single use, DAI decreased from the 15th day (7 days or 8 days after the first single use) from the start of the experiment, it was confirmed that the combination use of intestinal organoids and TNFα inhibitor showed the therapeutic effect of inflammatory bowel disease in a shorter time.

[0082] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited excellent synergistic effects for the prevention or treatment of inflammatory bowel disease with the symptoms including weight loss, stool consistency and fecal occult blood, etc., and the combination use has a better therapeutic effect than the multiple administration of the TNFα inhibitor.

Example 2. Effect on TNBS-Induced Inflammatory Bowel Disease

Example 2-1. Combination and Transplantation

[0083] Intestinal organoids were transplanted into an inflammatory bowel disease mouse model and an anti-inflammatory agent was administered to confirm the prevention or treatment efficacy of inflammatory bowel disease by the combination of the intestinal organoid and anti-inflammatory agent.

[0084] Specifically, the inflammatory bowel disease mouse model was prepared in the follows. 1 w/v% TNBS (trinitrobenzene sulfonic acid) presensitization solution was applied to the dorsal skin of C57BL/6 mice (male, 10 weeks, average body weight 24 g), and then only mice that did not lose weight nor show other specific symptoms for 8 days thereafter were selected and used. Then, 2.5 w/v% TNBS mixed in ethanol solution was intrarectally administered to the mice. It is known that when TNBS is mixed with an ethanol solution and intrarectally administered, a disease similar to inflammatory bowel disease in human is induced. Ethanol plays a major role in the break of the intestinal mucosal epithelial barrier and the entry of TNBS into the intestinal wall, and TNBS causes acute necrosis through oxidative damage.

[0085] The day after TNBS rectal administration, 100 .Math.g of anti-mouse TNFα antibody (BioLegend) as a TNFα inhibitor was intraperitoneally injected. In addition, on the day after administration of the TNFα inhibitor, GFP-expressing mouse intestinal organoids was transplanted at a number of 1 × 10.sup.6 cells/animal into the intestine. Transplantation was carried out by an endoscopic transplantation method, and fibrin glue was used as a scaffold for intestinal organoids. Meanwhile, in the case of combinational administration of a TNFα inhibitor and intestinal organoids, 100 .Math.g of an anti-mouse TNFα antibody and 1 × 10.sup.6 cells/animal of intestinal organoids were simultaneously administered and transplanted on the day after TNBS rectal administration.

[0086] An overview of inflammatory bowel disease induction, intestinal organoid transplantation, and TNFα inhibitor administration is shown in FIG. 6, and the control group and experimental group are summarized in Table 3 below.

TABLE-US-00003 Scaffold Administration/transplantation formulation Control - - Negative control (vehicle) Fibrin glue - Experimental group 5 Fibrin glue 100 .Math.g of anti-mouse TNFα antibody Experimental group 6 Fibrin glue intestinal organoids (1 × 10.sup.6 cells/animal) Experimental group 7 Fibrin glue 100 .Math.g of anti-mouse TNFα; and intestinal organoids (1 × 10.sup.6 cells/animal)

[0087] Thereafter, lesions of the intestinal mucosa and transplanted intestinal organoids were observed through colonoscopy at intervals of 1 to 2 weeks from the start date of the experiment.

[0088] As a result, as shown in FIG. 7, the vehicle group showed severe inflammatory and ulcerative lesions (white parts) immediately after the occurrence of inflammatory bowel disease induced by TNBS, and most of the subjects died at the 4th week of occurrence. It was confirmed that the prepared animal model had severe inflammatory bowel disease.

[0089] In addition, in the case of Experimental Group 5, in which only the TNFα inhibitor was administered alone, the survival rate increased compared to the vehicle group at the 4th week of occurrence. However, it was observed that many subjects died, and some inflammatory and ulcerative lesions still remained in the surviving subjects. Also, in the case of Experimental Group 6, in which only intestinal organoids were transplanted, it was confirmed that some inflammatory and ulcerative lesions still remained in the subjects survived until the 4th week of occurrence.

[0090] On the contrary, in the case of Experimental Group 7 in which the intestinal organoid and TNFα inhibitor were used in combination, inflammatory and ulcerative lesions were observed similar to those of the vehicle group immediately after the start of the experiment. However, inflammatory and ulcerative lesions almost disappeared in the survived subjects up to the 4th week of occurrence, and it was observed that the bumpy intestinal surface seen in some photos is part of the process that appears as the inflammation or ulcer is treated.

[0091] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited excellent synergistic effects for the prevention or treatment of inflammatory bowel disease.

Example 2-2. Survival Rate

[0092] After transplanting the intestinal organoid and administering the TNFα inhibitor by the method according to Example 2-1, the survival rate of the subject was evaluated as a prevention or treatment effect of inflammatory bowel disease.

[0093] Specifically, the survival rate of the subject following intestinal organoid transplantation and TNFα inhibitor administration was calculated in the following formula for each group when the number of the subject decreased, and was evaluated using the Kaplan-Meier survival assay.

[00001]$\text{Survival rate of subject = number of survived animals/total number of animals}\times \text{100\%}$

[0094] As a result, in the vehicle group suffering from inflammatory bowel disease as shown in FIG. 8, most of the subjects died on the second week of the experiment, and the survival rate was only about 20%.

[0095] In addition, in the case of Experimental Group 5, in which only the TNFα inhibitor was administered alone, the subject started to die from the first week of the experiment, and more than half of the subjects died at the second week, which recorded a survival rate of about 40%. Even in the case of Experimental Group 6, in which only intestinal organoids were transplanted, the subject started to die from the first week of the experiment, and a survival rate of about 60% was recorded at the end of the experiment.

[0096] On the contrary, in the case of Experimental Group 7 in which the intestinal organoid and TNFα inhibitor were used in combination, a high survival rate of about 90% was shown at the first week of the experiment, and a survival rate of about 70% was recorded at the end of the experiment. It was confirmed that the survival rate was significantly increased by about 10% compared to the case of using drug alone.

[0097] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited excellent synergistic effects for the prevention or treatment of inflammatory bowel disease.

Example 2-3. Body Weight

[0098] After transplanting the intestinal organoid and administering the TNFα inhibitor by the method according to Example 2-1, the body weight of the subject was evaluated as a prevention or treatment effect of inflammatory bowel disease.

[0099] Assuming that the subject’s body weight before the start of the test is 100%, the pattern of the decrease in body weight due to TNBS-induced bowel disease and the increase in the body weight according to the treatment with a therapeutic substance was graphed. At the end of the test, one-way ANOVA was performed for the difference in body weight between each group using the GraphPad Prism ver.3 statistical program, and the significance of the treatment effect was confirmed by performing the Tukey post hoc test (* p-value < 0.05).

[0100] As a result, as shown in FIG. 9, Experimental Group 7 in which the intestinal organoid and TNFα inhibitor were used in combination showed a similar body weight to the Experimental Group 5 in which only the TNFα inhibitor was administered, or the Experimental Group 6 in which only the intestinal organoid was transplanted.

[0101] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors are safely used for the prevention or treatment of inflammatory bowel disease because they do not exhibit toxicity, such as a significant loss in body weight.

Example 2-4. UCEIS (Ulcerative Colitis Endoscopic Index of Severity)

[0102] After transplanting the intestinal organoid and administering the TNFα inhibitor by the method according to Example 2-1, a reduction level on modified Ulcerative Colitis Endoscopic Index of Severity (UCEIS) in the subject was confirmed as prevention or treatment effect of ulcerative colitis.

[0103] Specifically, modified UCEIS was analyzed for parameters consisting of Vascular Pattern, Bleeding, Ulcers, and Survival. After observing the symptoms for each parameter, they were scored according to the degree of change. By summing them up, the symptoms was classified as follows: UCEIS of 0 to 1 is normal, UCEIS of 2 to 4 is mild, UCEIS of 5 to 6 is severe, and UCEIS of 7 to 8 is critical.

TABLE-US-00004 Parameters Change Score Vascular Pattern normal 0 Patchy Obliteration 1 Obliterated 2 Bleeding none 0 mucosal 1 luminal mild 2 luminal moderate or severe 3 Ulcers none 0 Erosions 1 Superficial ulcer 2 Deep ulcer 3 Survival survival 0 dead 8

[0104] As a result, as shown in FIG. 10, the vehicle group not administrating the intestinal organoid nor the TNFα inhibitor showed critical ulcerative colitis symptoms in which the modified UCEIS increased to about 8. In addition, in the case of Experimental Group 5 in which only the TNFα inhibitor was administered alone, the modified UCEIS showed severe ulcerative colitis symptoms that increased to about 5 to 6, and Experimental Group 6 in which only intestinal organoids were administered alone showed severe ulcerative colitis symptoms that the modified UCEIS increased up to about 5.

[0105] On the contrary, in the case of Experimental Group 7 in which the intestinal organoid and TNFα inhibitor were used in combination, the modified UCEIS reduced up to about 3 and it showed only mild symptoms of ulcerative colitis.

[0106] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited excellent synergistic effects for the prevention or treatment of inflammatory bowel disease such as ulcerative colitis, and the combination use can significantly alleviate symptoms from severe to mild.

Example 2-5. DAI (Disease Activity Index)

[0107] After transplanting the intestinal organoid and administering the TNFα inhibitor by the method according to Example 2-1, a reduction level on the disease activity index (DAI) of the subject was confirmed as prevention or treatment effect of inflammatory bowel disease. Specifically, DAI was analyzed in the same manner as in Example 1-4.

[0108] As a result, as shown in FIG. 11, the vehicle group not administrating the intestinal organoid nor the TNFα inhibitor showed critical inflammatory bowel disease symptoms in which the DAI increased to about 8 compared to the normal control group on the 10th day of the experiment.

[0109] In addition, in the case of Experimental Group 5 in which only the TNFα inhibitor was administered alone, the DAI showed severe inflammatory bowel disease symptoms that increased to about 6 to 7, and Experimental Group 6 in which only intestinal organoids were administered alone showed severe inflammatory bowel disease symptoms whose the DAI increased up to about 5.

[0110] On the contrary, in the case of Experimental Group 7 in which the intestinal organoid and TNFα inhibitor were used in combination, the DAI reduced up to about 3 and it showed only mild symptoms of inflammatory bowel disease. The symptoms did not worsen and remained until the end of the experiment.

[0111] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited excellent synergistic effects for the prevention or treatment of inflammatory bowel disease, and the combination use can significantly alleviate symptoms from severe to mild.

Example 2-6. Intestinal Mucosa Regeneration

[0112] Intestinal organoid and TNFα inhibitor were transplanted and administered by the method according to Example 2-1, and the effect of promoting intestinal mucosa regeneration in the subject was evaluated as a prevention or treatment effect of inflammatory bowel disease. Specifically, the degree of regeneration of the intestinal mucosa was confirmed by analyzing intestinal organoids engrafted in the intestinal tissue and the structures of intestinal tissue.

[0113] As a result, in Experimental Group 7, in which the intestinal organoid and TNFα inhibitor were used in combination, as shown in FIG. 12, it was confirmed that intestinal organoids were engrafted in the intestinal mucosa and formed normal tissues by replacing damaged tissues.

[0114] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited effects for the prevention or treatment of inflammatory bowel disease including the symptoms such as weight loss, diarrhea, and bloody stool by restoring tissue damaged due to inflammation.

Example 2-7. Intestinal Mucosa Fibrosis

[0115] Intestinal organoid and TNFα inhibitor were transplanted and administered by the method according to Example 2-1, and the effect of inhibiting intestinal mucosa fibrosis in the subject was evaluated as a prevention or treatment effect of inflammatory bowel disease.

[0116] Specifically, the degree of progression of fibrosis of the intestinal mucosa due to inflammation and the degree of inhibition of fibrosis of the intestinal mucosa by the intestinal organoid and/or TNFα inhibitor were evaluated by measuring the length of the intestine. In the case of subjects suffering from inflammatory bowel disease, the intestinal mucosa is subject to fibrosis due to inflammation, and as a result, the length of the intestine is shortened and hardened. Fibrosis causes abnormal changes in the intestinal tissue and interferes with the intake of nutrients, which is a factor that hinders the cure of diseases.

[0117] Specifically, the change in intestinal length to determine the difference in intestinal fibrosis according to TNBS administration and treatment of drugs was observed by measuring the length from the cecum to the anus by autopsying the mice at the end of the test. The difference in bowel length between each group was confirmed by one-way ANOVA using the GraphPad Prism ver.3 statistical program, and the significance of the therapeutic effect on the inhibition of intestinal fibrosis was confirmed by performing the Tukey post-hoc test (*p-value < 0.05).

[0118] As a result, as shown in FIGS. 13 and 14, in Experimental Group 5 (the TNFα inhibitor was administered alone) and Experimental Group 6 (the intestinal organoid was transplanted alone), fibrosis due to inflammation progressed. As a result, the length of the large intestine was shortened, which was similar to that of the vehicle group.

[0119] On the contrary, in Experimental Group 7 in which the intestinal organoid and TNFα inhibitor were used in combination, it was confirmed that inflammation-induced fibrosis of the intestinal mucosa was suppressed. Accordingly, the length of the large intestine was not shortened, which was similar to that of the normal control group.

[0120] Through the above results, it was confirmed that the combination of intestinal organoids and TNFα inhibitors exhibited effects for the prevention or treatment of inflammatory bowel disease including the symptoms of decreased body weight, diarrhea, and bloody stool by inhibiting or alleviating the progression of fibrosis in the inflamed area.