Guselkumab (GSK) is a monoclonal antibody that binds to the p19 subunit of IL23. The mechanism of action of GSK differs from that of ustekinumab, which inhibits IL23 by blocking the p40 subunit, shared by IL23 and IL12. Given that IL12 has been shown to have a protective role by limiting the recruitment of IL17-producing γδ-T cells, selective inhibition of IL23 through binding to the p19 subunit could offer a new mechanism to effectively treat the manifestations of PsA.5 Phase 2 randomized controlled trials (RCT) have shown that GSK 100mg at week 0, week 4, and then every 8 weeks is effective in the skin and joint domains and significantly improves the quality of life of PsA patients.6 In addition, it showed a significant decrease in serum levels of IL17A and F, among other cytokines. Two phase 3 RCT in PsA have recently been reported. In the DISCOVER 1 trial, the objective was to evaluate the efficacy and safety of GSK in patients with PsA, including naïve to biological therapy and refractory patients (up to one-third were exposed to ≤2 TNFi). The primary endpoint was the ACR 20 response at week 24. A total of 382 patients with active PsA were included. Patients were randomized to three arms, two with GSK 100mg at day 0, week 4, and then every 4 or every 8 weeks, and the third arm with placebo (PBO). Baseline characteristics were similar between groups, with a mean time of disease evolution of 6 years, a mean swollen joint count of 8–10, and a mean psoriatic body surface area (BSA) of 10 per cent. Sixty-five percent were taking concomitant treatment with csDMARDs, mainly MTX, and 31% had received at least one TNFi.

The ACR 20 response at week 24 was significantly higher in both GSK groups vs. PBO: 59% in the GSK group every 4 weeks achieved an ACR 20 response (delta vs. PBO of 37%, p<0.0001) and 52% in the GSK group every 8 weeks (delta vs. PBO of 30%, p<0.0001). The study was not designed to compare the efficacy of the two doses. A higher proportion of patients naïve to biological therapy achieved an ACR 20 response in comparison with those refractory or intolerant to TNFi (60% vs. 58% in patients treated with GSK every 4 weeks and 56% vs. 50% in patients treated with GSK every 8 weeks, respectively). Both doses of GSK significantly improved physical function at week 24. The cutaneous responses were high in patients treated with GSK every 8 weeks, with a PASI 90 and 100 response at week 24 of 50% and 26%, respectively. Regarding safety, at least 5% of patients in each group had infections (mainly upper respiratory tract) or an increase in transaminase serum levels. No patient treated with GSK had a severe infection. No differences were found in the rate of adverse events (AE) according to the previous use of TNFi.7

A second phase 3 RCT (DISCOVER 2) included 741 patients naïve to biological therapy. ACR 20, ACR 50, and ACR 70 responses in both groups of patients with GSK were significantly higher than PBO at week 24 (GSK 100mg every 4 weeks: ACR 20 64%, ACR 50 33% and ACR 70 13%; GSK 100mg every 8 weeks: ACR20 64%, ACR 50 31% and ACR 70 19%; PBO: ACR 20 33%, ACR 50 14% and ACR 70 4%, p<0.0001). In contrast to the DISCOVER 1 study, radiographic progression was evaluated, and was significantly lower in the GSK group every 4 weeks (least squares mean 0.29 [95% CI −0.05 to 0.63] vs. 0.95 [0.61–1.29] PBO, p 0.011), with numerical differences in the GSK every 8 weeks compared with the PBO group, but without reaching significance (least squares mean 0.52 [0.18–0.86]; p 0.072). Changes in domains such as dactylitis and enthesitis were evaluated in conjunction with the patients included in DISCOVER 1, to increase the size of the sample. The resolution rate of dactylitis at week 24 was significantly higher in the GSK group every 4 weeks (64%, p 0.011) and GSK every 8 weeks (59%, p 0.03) than in PBO group (42%). Likewise, the resolution rate of enthesitis (Leeds Enthesitis Index) was significantly higher in both GSK groups vs. PBO (45% of patients treated with GSK every 4 weeks, 50% of those treated with GSK every 8 weeks and 29% of those treated with PBO; p 0.031). The rate of AE was 46% in the GSK group vs. 41% in the PBO group, with upper tract respiratory infections being the most frequent (5% with GSK every 4 weeks, 2% with GSK every 8 weeks, and 3% in the PBO group), followed by liver enzyme elevation (10% of patients with GSK every 4 weeks, 6% of those treated with GSK every 8 weeks and 4% in patients in the PBO arm).8 In the 52-week extension study of DISCOVER 1, 90% of patients completed the follow-up. Seventy-three per cent achieved an ACR 20 response in the GSK group every 4 weeks and 60% in the GSK group every 8 weeks.9

The axial domain was not specifically evaluated in any of the DISCOVER trials. However, a post hoc analysis of both studies evaluated 312 patients who had axial involvement according to physician criteria and had imaging tests showing sacroiliitis at baseline. Thirty percent of patients were HLB27 positive. Improvement in axial symptoms, measured by both the Bath Ankylosing Spondylitis Disease Activity Index (BASDAI) and Ankylosing Spondylitis Disease Activity Score-C Reactive Protein (ASDAS-CRP), was significantly higher in patients treated with GSK vs. PBO at week 24 (BASDAI least squares mean changes −2.7 [95% CI −3.2 to −2.2] vs. −1.3 [−1.8 to −0.9] in the PBO group, p<0.001; ASDAS-CRP −1.4 [95% CI −1.7 to −1.2] in both groups of GSK and −0.7 [−0.9 to −0.5] in the PBO group, p<0.001).10

IL 23 inhibition may be an alternative mechanism of action in patients not achieving a response to TNFi. The COSMOS study was a phase 3b RCT that evaluated the efficacy and safety of GSK (100mg every 8 weeks) in patients who failed or were intolerant to ≤2 TNFi. A total of 285 patients were included in the study, of whom 88% completed the 44-week study. GSK was shown to be superior to PBO: 44.4% of patients in the GSK arm vs. 19.8% in the PBO group achieved an ACR 20 response at week 24 (p<0.001). These changes were observed from week 4 (19% GSK arm vs. 4.2% PBO arm, p<0.001). Secondary endpoints were significantly higher in patients on GSK vs. PBO (ACR 50: 19.6% in GSK group vs. 5.2% in PBO group, p 0.001; HAQ-DI score: −0.18 change in GSK vs. −0.01 in PBO arm, p 0.003 and PASI100: 30.8% in GSK group vs. 3.8% in PBO group, p<0.001). The incidence of AEs leading to treatment discontinuation was 2.7/100 patient-year. Two patients treated with GSK had pneumonia and two had psychiatric symptoms that led to discontinuation of GSK. One patient had gastrointestinal symptoms without final confirmation of inflammatory bowel disease.11

Risankizumab (RZK) is another IgG 1 monoclonal antibody that binds to the p19 subunit of IL23. The clinical development of RZK in PsA is a little behind that of GSK. The results of the KEEPsake 1 (patients naive to biological therapy)12 and KEEPsake 2 (patients refractory or intolerant to TNFi) trials13 have recently been reported.

In KEEPsake 1, 964 patients were enrolled and randomized to receive RZK (150mg) or PBO. Most patients treated with RZK achieved an ACR 20 response at week 24 [57.3% compared with 33.5% with PBO (p 0.001).14 Other outcomes were significantly higher in patients treated with RZK vs. PBO, such as the ACR 20 response at week 16 (56.3% vs. 33.4%, p<0.001), PASI90 (52.3% vs. 9.9%, p<0.001), nail improvement (modified Nail Psoriasis Severity Index [mNAPSI] −9.8 vs. −5.6, p<0.001), among others. No significant differences were found between RZK and PBO in radiographic progression due to the low number of progressors. Regarding safety, one death was reported in the RZK group due to urosepsis, and one patient treated with RZK and 2 in the PBO group presented COVID19 infection. Similar results were found in patients with an inadequate response to TNFi. The KEEPsake 2 study showed that 51.3% of patients treated with RZK achieved an ACR 20 response compared with 26.5% of those treated with PBO (p<0.001) at week 24.15 Secondary endpoints, including minimal disease activity (MDA), PASI, and ACR 20 at week 16, were significantly higher in patients treated with RZK vs. PBO.

The dactylitis and enthesitis outcome results s were pooled from the KEEPsake 1 and 2, with a greater proportion of patients achieving complete resolution of these domains in the RZK group vs. PBO (68.1% vs. 51.0% for dactylitis and 48.4 vs. 34.8% for enthesitis, p<0.001).14

In the 2021 ACR meeting, the integrated data of efficacy and safety from the two phase 3 RCT were presented, showing a higher proportion of patients with RZK achieving an ACR 20 response at week 24 (55.5% vs. 31.3% of patients treated with PBO, p 0.001). These responses were maintained for other secondary objectives. The rate of adverse events was similar between both groups (45.5% of patients treated with RZK and 43.9% in the PBO group).16

Tildrakizumab (TIL) is the third (in order of appearance) monoclonal antibody that binds to the p19 subunit of interleukin IL23. Currently, only the results of the phase 2 RCT have been reported, where the efficacy and safety of four treatment arms (200mg every 4 weeks, 200mg, 100mg or 20mg every 12 weeks) compared with PBO were measured. The primary endpoint was the ACR 20 response at week 24, reaching 71.4–79.5% in patients treated with different doses of TIL compared with 50.6% of patients in the PBO arm (p=0.05). ACR 50/70 responses were better in patients treated with TIL 20m mg every 4 weeks and every 12 weeks. The responses were maintained after 52 weeks of follow-up.17 Only one patient treated with TIL discontinued therapy due to an AE (hypertension in the 200mg every 12 weeks arm). Most EA were mild and comparable between all the treatment arms.

Two-phase 3 RCT are currently ongoing, one in patients with previous exposure to TNFi (INSPIRE 1)18 and another in patients naive to biological therapy (INSPIRE 2).19

Brodalumab (BRO) is a fully human monoclonal antibody that binds with high affinity to the IL17 receptor subunit A (IL17RA), blocking the action of multiple cytokines of the IL17 family.20

In 2014, a phase 2 RCT was reported, showing the efficacy of two doses of BRO (140 and 180mg every 2 weeks) vs. PBO.21 The results of the two phase 3 RCT were reported in 2021. The AMVISION 1 and 2 trials were developed to evaluate the efficacy and safety of BRO in PsA. Patients with an inadequate response or intolerance to previous treatments, including biological therapy, were included. Patients were randomized to receive BRO 140mg, 210mg or PBO at weeks 0, 1, and then every 2 weeks until week 24. About 30% of patients had previously been exposed to biological therapy. After some events of suicidal ideation and behavior (SIB) were observed, patients with a history of SIB were excluded after a review of the protocol, which delayed the development of the trials and the publication of the results.

The primary endpoint of both studies was the ACR 20 response at week 16. Five hundred and seventy-eight patients were included in AMVISION 1 and 484 patients in AMVISION 2. At week 16, patients treated with BRO achieved a significantly higher ACR 20 response than those treated with PBO (45.8% in the BRO 140mg arm and 47.9% in the BRO 210mg arm vs. 20.9% in the PBO group (p<0.0001). Overall, the responses in patients on BRO 210mg were numerically higher than for BRO 140mg, although comparison of the two doses was not one of the study objectives.

The pooled results of the two studies showed similar rates of AE among patients treated with BRO and PBO. Most AEs were mild or moderate. A patient with a history of SIB and depression in the BRO 140mg arm in the AMVISION 2 study had suicidal ideation after the first dose of BRO. However, this event was not considered related to the drug, and withdrawal from the study was not necessary. The authors finally concluded that the safety data obtained were consistent with those from studies with other IL 17 inhibitors.22 Currently, no attempts or completed suicides were reported in a two-year pharmacovigilance report from 2677 patients treated with BRO in the United States.23

Bimekizumab (BMK) is an IgG monoclonal antibody that binds to a peptide region shared by interleukins IL17A and IL17F. Currently, only the results of the phase 2 RCT have been reported. The BE ACTIVE trial evaluated the efficacy and safety of BMK in patients with PsA. The primary endpoint was the ACR 50 response at week 12. Patients were randomized to 5 arms: BMK 16mg every 4 weeks, BMK 160mg every 4 weeks, BMK 160mg every 4 weeks with a loading dose of 320mg, BMK 320mg every 4 weeks or PBO. Patients in the BMK 16mg arm or PBO were rerandomized at week 12 to receive BMK 160mg or BMK 320mg every 4 weeks. A total of 206 patients were included in the study. Twenty per cent of patients had previously received TNFi. Patients randomized to BMK 320mg had more tender joints, higher pain scores, and a higher body mass index at inclusion. Patients in all BMK groups achieved a significantly higher ACR 50 response than PBO at week 12. The response was higher for patients with 160mg doses who had received a previous loading dose (p 0.0004). At week 24, the proportion of patients in the BMK 320mg arm who achieved an ACR 50 response was slightly lower than that of patients in the BMK160mg arm (with or without loading dose). At week 48, the ACR 50 response rates were similar in all three groups. Differences in ACR 50 response rates between the BMK 160mg group with loading dose and BMK 320mg were found from week 4, even though the same dose of BMK had been received. Therefore, the authors considered that the discrepancy in the response at week 24 could be attributable to differences in baseline characteristics between groups. Forty-one per cent and 57% of patients reported AE in groups treated with BMK and PBO, respectively. Most AE were mild, with upper respiratory tract infections the most frequent. Fourteen cases (7%) of Candida infection were reported during the trial, with an adjusted incidence of 8.3 per 100 patients per year.24

At the EULAR 2020 conference, the results of the 2-year extension of the BE-ACTIVE trial were presented, showing more than 50% of patients maintaining the ACR 50 response, a BSA of 0%, and MDA status.25 More recently, at the 2021 ACR meeting, the 3-year extension data from the BE ACTIVE study was presented, but only in the subgroup of patients naive to biological therapy. More than half of these patients achieved an ACR 50 response at weeks 48 and 152 (63.6% and 69.8% [cases observed], respectively).26 A phase 3 RCT (BE OPTIMAL).27 is currently ongoing, in which BMK and an active comparator (adalimumab [ADA]) are compared with PBO. The primary endpoint is the ACR 50 response at week 16. No results have been reported.

Upadacitinib (UPA) is a Janus kinase (JAK) 1 membrane receptor inhibitor approved for patients with rheumatoid arthritis (RA).28,29 Recently, the results of the two phase 3 RCT, SELECT-PsA 1 and 2, have been reported, with the objective of assessing the efficacy of UPA in PsA. SELECT-PsA 1 is a phase 3 RCT that compares the efficacy and safety of UPA with PBO and an active TNFi comparator (ADA). PsA patients with active disease (>3 swollen/tender joint count [TJC]) were included, excluding patients with previous use of biologics or JAK inhibitors. Patients were randomized to receive UPA 15mg, UPA 30mg once daily, ADA 40mg every 2 weeks, or PBO. The primary endpoint was the ACR 20 response at week 12. Secondary endpoints included direct comparisons between UPA and ADA. A total of 1704 patients were included. The ACR 20 response with both UPA doses was significantly higher than PBO (70.6% of patients with UPA 15mg, 78.5% of patients with UPA 30mg, and 36.2% in the PBO arm, p<0.001). UPA 15mg was not inferior to ADA while UPA 30mg showed superiority over ADA.

The incidence of AE at week 24 was numerically higher for patients treated with UPA 30mg (72.3%) than for those treated with 15mg (66.9%). The most common AE were upper respiratory tract infections. Herpes zoster infection was diagnosed in 4 patients on UPA 15mg and 5 patients on UPA 30mg. Only one case of pulmonary thromboembolism was reported, in a patient treated with 30mg UPA. Two patients were diagnosed with deep vein thrombosis (DVT) in the ADA arm and one in the PBO group.30

The SELECT-PsA 2 trial evaluated the efficacy and safety of UPA in patients with PsA with previous failure or intolerance to ≥1 biological DMARD. A total of 642 patients were randomized to receive UPA 15mg, 30mg or PBO. The primary endpoint was the ACR 20 response at week 12, when there were significantly more patients who achieved an ACR 20 response in both UPA arms vs. PBO (UPA 15mg 56.9%, UPA 30mg 63.8%, and PBO 24.1% p<0.001). Significant differences were observed between UPA and PBO from week 2 (p<0.001). At week 12, patients on UPA 30mg achieved a maximum response, while the ACR 20 response rate in patients on UPA 15mg continued to increase until week 20. In week 24, a higher proportion of patients in both UPA arms achieved MDA vs. PBO (36% of patients with UPA 15mg, 45.4% in UPA 30mg vs. 12.3% of patients treated with PBO; p 0.001). At week 24, more AE were reported in patients who received UPA than in those who received PBO. The most frequent AE were nasopharyngeal and upper respiratory tract infections. The incidence of herpes zoster infection was higher in patients treated with UPA 30mg (3.7%), although no case was considered serious. Only one episode of DVT was reported in the UPA 15mg group.31

In addition, the 56-week extension of the SELECT-PsA 1 study has been recently reported: 1419 of the 1705 patients (83.2%) included in SELECT-PsA 1 completed the follow-up. At week 24, all patients initially in the PBO arm were rerandomized to receive UPA 15 or 30mg. At week 56, ACR 20/50/70 response rates were higher for patients initially treated with any of the two doses of UPA compared with patients treated with ADA (UPA 15mg: 74.4%; UPA 30mg 74.7%; ADA 68.5%; PBO randomized to UPA 15mg 73% and PBO randomized to UPA 30mg 74.1%; p 0.046).32

Filgotinib (FIL) is a selective JAK 1 inhibitor. In the EQUATOR study, a phase 2 RCT, 131 patients with active PsA, including patients with an inadequate response or intolerance to TNFi therapy, were randomized to two arms: FIL 200mg once daily and PBO. The ACR 20 response at week 16 was achieved by 80% of patients treated with FIL and 33% of those treated with PBO (difference of 45% between both arms; p<0.0001). The onset of action of FIL was rapid, with significant changes compared with PBO from the first week of treatment. AE were reported in 57% of patients treated with FIL and 59% of patients treated with PBO. Only one patient treated with FIL had a herpes zoster infection. No thromboembolic event was reported during the study.33 The results of the 1-year extension of the EQUATOR study were presented at the EULAR 2020 conference, where patients initially treated with FIL maintained the clinical response after one year of treatment (ACR 50 64.8% and MDA 35.2%).34

There are currently two ongoing phase 3 RCTs with the objective of evaluating the efficacy and safety of FIL in patients without previous use of biological DMARDs (PENGUIN 1)35 and patients with an inadequate response or intolerance to biological therapy (PENGUIN 2).36

Deucravacitinib (DEU) is a selective allosteric (non-competitive) inhibitor of tyrosine kinase 2 (TYK2) inhibitor. The results of a phase 2 RCT with a one-year extension program were recently reported. The efficacy and safety of DEU were evaluated in 203 patients with active PsA, including patients with an inadequate response or intolerance to TNFi therapy. Patients were randomized to three arms: DEU 6mg, DEU 12mg daily or PBO. The primary endpoint was the ACR 20 response at week 16, which was significantly higher in patients treated with DEU 6mg (52.9%; p 0.0134) and DEU 12mg (62.7%; p 0.0004) vs. PBO (31.8%). No severe AE, herpes zoster infections, or thromboembolic events were reported.37

At the ACR 2021 meeting, a post hoc analysis from the phase 2 RCT of DEU was reported, evaluating the ACR 20 response at week 16 in patients with PsA with or without previous exposure to csDMARD treatment. All patients with DEU, regardless of being naïve to csDMARD, had similar clinical improvements.38

Currently, a phase 3 RCT is ongoing to assess the efficacy and safety of DEU in patients who have not previously received treatment with biological DMARDs as well as those who have previously received TNFi.39

Brepocitinib (BRE) is a dual tyrosine kinase 2 and JAK 1 inhibitor. It is currently being studied for oral and topical treatment in patients with moderate to severe PsO.40 At the ACR convergence 2021 meeting, results from the phase 2b RCT in patients with active PsA were presented. Patients were randomized to receive once daily oral doses of BRE 10, 30, 60mg, or PBO. Patients with previous use of DMARDs and those with prior use of one TNFi (up to one third) were included. A total of 218 patients were included, a significantly higher proportion of patients treated with BRE 30mg (66.7%) and 60mg (74.6%) achieved the primary endpoint vs. PBO (43.4%, p<0.05) at week 16. Additionally, secondary endpoints such as ACR 50 (BRE 30mg 48.3%, BRE 60mg 44.1% vs. PBO 10.4%; p<0.05) and ACR 70 (BRE 30mg 26.7%, BRE 60mg 23.7% vs. PBO 0.7%; p<0.05) responses were also achieved. At week 16, dactylitis and enthesitis resolution (measured by Dactylitis Score Sheet [DSS] and Spondyloarthritis Research Consortium of Canada [SPARCC] enthesitis index, respectively) were observed in 78.6% and 56.8%, respectively, in the BRE 60mg arm vs. PBO (DSS 32.5% and SPARCC 38.1%; p<0.059). Skin endpoints were also analyzed, and the PASI 75 response was significantly higher for both doses of BRE vs. PBO (BRE 30mg 59%, BRE 60mg 69.2% vs. PBO 24.4%; p<0.05). Patients treated with BRE had more AE (BRE 30mg 55% and BRE 60mg 66.7%) compared with PBO (47.8%). The AE rate leading to discontinuation at week 16 was 3.3% in patients treated with BRE 30mg and 5% with BRE 60mg. Herpes zoster and varicella infections were found in 1.7% of patients with BRE 30mg. No thromboembolic events were reported.41