PARKN GT PRC1 Dataset, FXN Benchmark, In-Vivo Models, KOL Notes
Parkin KO Mice Biomarker Matrix Continuation
The top table continues the biomarker expected-change matrix from 20240722_182021.
| Biomarker | Expected change in the model (basal) | Expected Tx response in the model | Mechanistic relevance with Parkin-PD patients |
|---|---|---|---|
CSF Parkin protein | none | 당연히 ↑ | May help PK-PD |
CSF Parkin mRNA | None | 당연히 ↑ | May help PK-PD |
CSF pS65-Ub | Very low (from postmortem papers) | ↑ | May help PK-PD |
Brain MC1 proteins | ↓ (from Palacino) | ↑ | May help PK-PD |
PRC1 In-Vivo Disease-Relevant / Function Model Dataset
Title:
Candidates Of In Vivo Disease-relevant/Function Model For PRC1 Dataset (Draft)Model Establishment In Parkin KO Mice Compared To WT Mice
Subheader:
Model establishment in Parkin KO mice compared to WT mice (-Oct 10, 2021)| Model | Minimum data | Preferable data | Best data |
|---|---|---|---|
6-OHDA model orEthanol model orSpontaneous model (young adult) | Reduction of Parkin activity (e.g. phospho-poly ubiquitination) | Reduction in mitophagy- Increase in mitochondrial protein (Tom 20)- Decrease in autophagy levels (LC3-II) | Reduction in number of DA neurons (e.g. TH cell or TH fiber) |
Efficacy Study Of rAAV9-Parkin In Parkin KO Mice
Subheader:
Efficacy study of rAAV9-Parkin in Parkin KO mice (-Oct 29, 2021)| Model | Minimum data | Best data | Nice to have |
|---|---|---|---|
One model among above 3 models | Significantly increase in Parkin activity | Significantly reverse mitophagy deficits | Reverse reduction of TH |
Externalization: Publication And IP
Heading:
Externalization| Item | Publication | IP |
|---|---|---|
PRKN protein | Publication planned for brain parkin assay (collaboration with Juntendo-U, publication timing TBD). IP는 안 할거지만 publication 은 해서 so that we can protect the assay originality from competitors | Takeda does not care about IP for assay method because it's not our core business |
pS65Ub | Will; IP는 안 할거지만 publication 은 해서 so that we can protect the assay originality from competitors | X (since we've got help from Mitokinin, it's not good to get IP by ourselves.) |
FXN GT Benchmark Executive Summary
Heading:
FXN GT (Benchmark) Executive summaryBenchmark rows:
| Topic | Stable text |
|---|---|
NHP biodistribution study | Normal NHP, hemagglutinin (HA)-tagged lead expression construct, -> after 4w -> analysis: viral genome copy number, FXN mRNA & protein, histological (safety) |
ROA? (after capsid selection) | untagged FXN expression cassette in NHPs (up to 3 months) with standard toxicology endpoints, as well as analysis of FXN expression levels |
FY22 Goals
Heading is partially cut but reads as:
FY22 GoalsText:
1. Set a (preliminary) target CSF parkin protein level with transgene expression
My understanding is that this will be achieved by the following two approaches:
Direct approach: by NBB CSF samples (already measured) and antemortem CSF samples (we will plan this, right?).
Indirect approach: correlation of Parkin level between brain and CSF, in NBB samples and from NHP biodistribution study
Increase confidence of Parkin protein and pS65-Ub as PS, TE and PD marker for clinical use:
Obtain CSF-brain correlation with NBB samples (parkin, pS65-Ub)
Confirm transgene protein expression in monkey CSF (parkin)In Vivo: MPTP / Prkn Knockout Mouse
Top treatment table:
| Treatment group | AAV treatment (Day 1, Neurosurgery) | Dose (vg/brain) | MPTP treatment (D1, 2, 3, 4, and 5, i.p.) | Necropsy | Number of animals (Animal number) |
|---|---|---|---|---|---|
1 | Buffer control | 0 | Saline control | Day 19 | 16 (101-116) |
2 | Buffer control | 0 | MPTP (25 mg/Kg) | Day 19 | 16 (201-216) |
3 | AAV9-PK044 | 1x10^8 | MPTP (25 mg/Kg) | Day 19 | 16 (301-316) |
4 | AAV9-PK041 | 1x10^8 | MPTP (25 mg/Kg) | Day 19 | 16 (401-416) |
Results table:
| Model | Type | Construct | Dose (VG/brain) | Readout | Results/Current status | Data delivery |
|---|---|---|---|---|---|---|
6-OHDA | blank | hSYN1-coPRKN (PK041) | 1x10^8, 10^9, 10^10 | TH in SN and striatum (STR) (IHC); Dopamine in STR (LC/MS-MS); Mitophagy (pUb) | ~20% DA neuron recovery in SN and STR (IHC); No effect on DA contents in STR | Completed |
6-OHDA | Re-test | hSYN1-coPRKN (PK041) | 1x10^8 | TH in STR (WES); TH in SN and STR (IHC) | ~30% DA neuron recovery in STR (WES) | Mid-Feb 2023 |
MPTP | blank | hPGK1-coPRKN (PK044); hSYN1-coPRKN (PK041) | 1x10^3 | TH in SN and STR (IHC); Dopamine in STR (LC/MS-MS); Mitophagy (pUb) | Necropsy is finished (Jan 5); IHC and biochemical analysis is ongoing.; DA analysis is ongoing | End Feb 2023 (flash); End Mar 2023 (final) |
α-Syn PFF | 1M | hSYN1-coPRKN (PK041) | 0.3x10^8, 1x10^8 | TH in SN (IHC) | ~23% DA neuron recovery in STR (IHC) | End of Jan 2023 |
α-Syn PFF | 3M | hSYN1-coPRKN (PK041) | 0.3x10^8, 1x10^8 | TH in SN (IHC) | Necropsy is finished | Mid-March 2023 |
LPS | blank | TBD | TBD | Iba1 (WES) | Trend of increase in Iba1 | End of Mar 2023 |
Naïve KOM | Nysno's | TBD | TBD | Brain IL-6 | Under measuring (ELISA) | Early Feb 2023 |
Naïve R275W | M | TBD | TBD | TH in SN (IHC); Dopamine in STR (LC/MS-MS) | STR DA is not altered at 25M; IHC is on going | End of Mar 2023 |
IP Filing
Heading:
IP filingLink / note:
provisional IP filing.The full left margin of this section is partially cut; use the full-body evidence for exact placement.
KOLs: Hattori
Text under KOLs / Hattori:
- In general, patients are reluctant to undergo neurosurgery by DBS treatment, but he recommends it for 100% of his PD patients.
- Regarding GT in PRKN-PD, local administration makes sense since the disease is confined to the basal ganglia. An option could be to put the virus together when inserting DBS electrodes.
- In postmortem brain analysis in PRKN-PD, GFAP level in astrocytes is reduced, suggesting an immaturity (prkn-PD 환자들이 20세 되서야 발병하는 것과 일맥상통) of astrocytes and astrocyte dysfunction for pathogenesis. His team observed a metabolic change (reduction of lactate consumption) in the culture cell system (PRKN-PD iPS-astrocyte? or KO astrocyte?). --> GABA neuron 이상 -> ↓ motor functionAstrocyte table fragments:
| State | Fragments |
|---|---|
Normal | mitophagy is required on astrocytes to efficiently release lactate and maintain; Mitophagy and maintain mito copy number |
In PD | immaturity (prkn-PD 환자들이 20세 되서야 발병하는 것과 일맥상통) of astrocytes; reduction of lactate consumption |
Js questions | Lactate as a BM? |
Hattori Collaboration Questions
Text:
- Prof. Hattori is open to the draft collaboration plan about the astrocytic role of Parkin using mono and co cultured iPSC derived astrocytes.
- He further agreed that Takeda researchers visit his lab to receive data and experimental protocols related to astrocytic Parkin studies.
- He is open to all options of mouse models we have including human Parkin R275W knock in mouse for in vivo study.
- As he did not know the details about the various mouse models, an additional discussion (possible with his lab members) is needed to understand the scope of a research collaboration.
- Dyskinesia in PRKN-PD is dominant in the lower limb, so-called dancing-feet dyskinesia. His team is trying to elucidate its mechanism by electrophysiological approach by using Prkn KO rat. Flash result suggests D1 signal is associated with dyskinesia.Attachment/link:
Questions for Prof. Hattori.xlsxKOLs: Michael Schlossmacher / Redox Biomarker Notes
Text under Michael Schlossmacher:
Canada: Dr, Michael Schlossmacher at Ottawa Hospital, who is at the redox mechanism for Parkin, and also at biomarkers. (Tokarew, 2021 #2156)
Normally: parkin has an anti-oxidant function (unrelated to E3 ligase activity!). In Pakrin-PD, ↑ Oxidative stress: ↑ H2O2 in i) post-mortem human cortex (fig 5i) and ii) dopamine-treated human M17 cells expression prkn point mutation (C431F, G321E)(fig5j).
(El Kodsi, 2023 #2215) prkn-/-//Sod2± adult animals did not develop dopamine cell loss in the S. nigra, but, they had more reactive oxidative species and a higher concentration of carbonylated proteins in the brain; bi-genic mice also showed a trend for more nitrotyrosinated proteins.
We detected a parkin deficiency-associated increase in the ratio of reduced glutathione (GSH) to oxidized glutathione (GSSG) in murine brain, PRKN-linked human cortex and several cell models. PRKN gene expression contributes to the network of available thiols in the cell, including by parkin's participation in glutathione recycling.Uncertain Spans
- Michael Schlossmacher/redox notes continue into the lower adjacent scroll position; use the next photo before treating this as a complete KOL subsection.