RDDU’s PE I Imaging GBA Plan (continued), PK/PD Strategy, 20201007 / 2021005 DMPK Meetings, AAV/PK Rationale, PRC1 Parkin Team Considerations, And [Benchmark] FA GT PRC1 PE Narrative
Dose-dependent change of SB)
PK (→ rapid clearance, metabolite, stability of labeling position)
Blocking (pretreatment, occupancy) 필요없겠지? 대신 parkin KO mice 에서 brain transgene protein level data 로 충분할 듯
Imaging (hot): Reginal distribution, Blocking (불필요?)
Drug candidate; rodent; DMPK (겠지); Drug candidate; NHP; QTS
아래처럼 하면 되지 않을까?
| Date | Plan |
|---|---|
| -2022 01 (PE 직후) | Identify selective compound series |
| 2022 01 - 2022 11 (CN) | BMax assessment |
| 2022 11 (CN) - 2023 12 (CS) | Optimization of physical properties and non-imaging triaging of potential candidates (blocking 불필요하니 ttimeline 줄일까? (- 202307?) |
| 2023 12 (CS) - IND? | In vivo PET studies in relevant preclinical species (e.g. NHP) – specific binding, dosimetry |
PK/PD Strategy
| Model | Plan | Timing |
|---|---|---|
| WT Rat | See DMPK's plan | |
| PRKN KO Rat |
After CN (Mar 2023) RATIONALE: i) The results will be available by Mar 2023. ii) Promoter will be selected by Mar 2023 (MPTP, etc.). iii) We don't need SN biodistribution data. | |
| Kimio Tohyama | ELISA in brain tissues (animal only?) |
- 20201007 meeting with DMPK
- Mice CSF
- Necessary?, not necessary but helpful, nhp is costly,
- Who’s responsible for CSF Parkin assay of mice ? & NHP?
- Conclusion
- Immunoassay needs minimum 25 uL, but mice usually can produce 10uL, so we may need rat (RAT 은 100 UL제공가능)
- Plan
- Mice CSF
- DMPK’s pk/pd modelling plan:
- Brain protein -brain VG → brain – CSF (to be establish before PE)
- NSTM
- We won’t change current timeline of parkin protein assay
- But, Mice expression study시작시점인 2021 Jan 전까지 우리 method의 mouse CSF 에서의 detectibility를 확인함!
- Hioki상에게 확인: Mice expression study 에서 CSF채출 여부, 채출양은?
2021005 meeting with DMPK WHOLE PURPOSE: i) To predict human efficacious exposure ii) clear understanding of PK-PD-DR BM in an animal model (cf: WT animal 에서 하면 2등급)
| Dose | PK | PD | DR BM |
|---|---|---|---|
| dose | Brain vg | : DA | |
| Brain Parkin mRNA | |||
| Brain Parkin protein | |||
| CSF vg | |||
| CSF Parkin mRNA | |||
| CSF Parkin protein |
What’s the role of Parkin mRNA in PK/PD relationship? Dose → Tx effect 로 바로 가기에는, 종간 차이 등에 의해 중간자인 pk 가 달라서 결과가 다를 수 있으므로, 중간자인 pk → Tx effect 를 하자. PD 는 역할이 별로 없을 것 같긴 함.
Nishimura: CSF VG assay: almost complete Nishimura: mRNA assay: complete (in mouse), translation to NHP should be easy, but they haven’t tried CSF!
Finally DMPK will try to do the following items
- To measure mRNA in mouse CSF, because the minimum CSF volume to measure mRNA is 5 uL in the current assay system, which suggest the possibility to detect Parkin mRNA in CSF, although the sensitivity is unknown. I have already asked Hioki-san to prepare the CSF samples in the Parkin KO or normal mouse administered PGK-1. Hioki-san, please discuss the detail later.
- To measure endogenous Parkin protein in rat CSF by SMCxpro assay We don’t know whether this challenge works well, but it is worth to try. If the measurement success, we will try to the mouse CSF next. Kamiguchi-san, please share your human CSF assay method and protocol.
Anyway, we confirm whether Parkin expression in CSF can work as a PK parameter in PK/PD analysis prior to NHP study.
Rationale: Select AAV which can deliver sufficient VG (at least above 1x10^4 VG per ug genome DNA shown in AAV9 of Prevail study) in NHP brain. Estimate the dose to recover the healthy Parkin level in model mice, after confirming the preliminary concept that Parkin level in brain correlates with protein or mRNA in CSF of NHP or model mouse.
VG data alone is not sufficient – we will need to generate exposure data (RNA or protein) – I do not think that there is any data showing that AAV0 can achieve delivery to SN/striatum by ICM – as measured by expression? CSF is may not be representative for SN/substanita nigra WHY limit to AAV9?
We would like to confirm that the AAV selected by GBA exploratory study can deliver sufficient VG in next NHP study with HA-tag. In addition, we will try to confirm the relationship between mRNA in CSF and protein in brain by Parkin KO mice prior to the NHP study. I understand that CSF may not be representative for SN, but I believe that Parkin level in CSF is the most promising PK parameter at this point. Due to the available CSF limitation in mice, this study is challenging, but we need to confirm the PK/PD relationship in model mice. Thus, I seek the possibility to obtain the data by mice after PE.
Hioki: 2-5 uL CSF/mouse can be sampled.
PRC1
efficacious dose(s) observed in the Parkin KO mouse disease model, biodistribution in NHP
PK/PD) correlations dose-exposure correlations
| Parkin team consideration | Note / limitation | Cf) Methods that GBA team uses | Parkin Team's request |
|---|---|---|---|
| AAV capsid | No need to measure | ||
| Vg (viral DNA) in CSF or plasma | only detects DNA from virus | shire ID tag qPCR. | May I ask about the feasibility of measurement and your thought? |
| mRNA | No distinguish | RT-PCR | Hioki'san: A separate slide |
| mRNA NDE | No distinguish | ||
| Protein CSF |
No distinguish, Parkin Protein Sarah Melissa Jacobo: anti-human Parkin (or anti-HA antibody) 가 혹시 있으면 endogenous parkin 과 구분할 수 있을지도 | ELISA | |
| Protein NDE | No distinguish |
| Parkin team consideration | Cf) Methods that GBA team uses | Parkin Team's request | When we need this by |
|---|---|---|---|
| AAV capsid | DMPK: No need to measure | ||
| Vg (viral DNA) in CSF or plasma | shire ID tag qPCR. | DMPK: May I ask about the feasibility of measurement and your thought? | By ? to support NHP biodistribution study? |
| mRNA CSF (/EV) | RT-PCR | Hioki'san: A separate slide is requested for LGE proposal | |
| mRNA NDE | |||
| Protein CSF (/EV) | ELISA | ||
| Protein NDE |
[Benchmark] Molecular biomarker development of FA GT PRC1 PE Narrative
7: Biomarker Probability of Technical Success (PTS)
| Type | Biomarkers | PTS | Priority | Needed by |
|---|---|---|---|---|
| Target Engagement (TE) | Frataxin mRNA in exosomes | Low | Low | By CS to support biodistribution study |
| Pharmacodynamic (PD) | Frataxin protein in CSF | Medium | High | IND filing |
| Pathway Modulation (PM) | Plasma NfL | High | N/A | Assays developed for clinical use |
| Plasma GFAP | High | Low | ||
| Plasma UCHL1 | High | Low | ||
| Disease Related (DR) | Brain atrophy (vMRI) | High (brain) | High | IND filing |
| Disease Related (DR) | Mitochondrial function (MC1 PET) | High (brain) Low (heart) | High; if MRI QSM or SWI not available | IND filing |
| Disease Related (DR) | Iron accumulation (MRI – QSM or SWI) | Medium (brain) | High; if MC1 PET not available | IND filing |
Topic | Action
Uncertain Spans
| location | transcription | uncertainty |
|---|---|---|
| 20201007 / DMPK plan | to be establish before PE, detectibility, CSF채출 | reads as written; establish/detectibility likely authoring spelling issues; 채출 is unusual Korean and may be a typo for 채취. |
| AAV / PK boxed right | AAV0, substanita nigra, CSF is may not be representative | reads as written; AAV0 may be AAV9, substanita is likely a typo for substantia, and the doubled is may not is likely an authoring slip. |
| PRC1 Parkin team consideration | shire ID tag qPCR., Hioki'san | reads as written; shire may be a vendor name and Hioki'san uses a non-standard apostrophe between name and san. |
| FA GT benchmark | leftmost type-label cells | The type column on the left is partially cut by the photo edge; values reconstructed from visible endings. |