Alain Larocque scite author profile

Neurotensin (NT) has emerged as an important modulator of nociceptive transmission and exerts its biological effects through interactions with 2 distinct GPCRs, NTS1 and NTS2. NT provides strong analgesia when administered directly into the brain; however, the blood-brain barrier (BBB) is a major obstacle for effective delivery of potential analgesics to the brain. To overcome this challenge, we synthesized chemical conjugates that are transported across the BBB via receptor-mediated transcytosis using the brain-penetrant peptide Angiopep-2 (An2), which targets LDL receptor-related protein-1 (LRP1). Using in situ brain perfusion in mice, we found that the compound ANG2002, a conjugate of An2 and NT, was transported at least 10 times more efficiently across the BBB than native NT. In vitro, ANG2002 bound NTS1 and NTS2 receptors and maintained NT-associated biological activity. In rats, i.v. ANG2002 induced a dose-dependent analgesia in the formalin model of persistent pain. At a dose of 0.05 mg/kg, ANG2002 effectively reversed pain behaviors induced by the development of neuropathic and bone cancer pain in animal models. The analgesic properties of ANG2002 demonstrated in this study suggest that this compound is effective for clinical management of persistent and chronic pain and establish the benefits of this technology for the development of neurotherapeutics.

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TH1902, a new docetaxel‐peptide conjugate for the treatment of sortilin‐positive triple‐negative breast cancer

Demeule

Charfi

Currie

et al. 2021

Cancer Science

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New Peptide-Drug Conjugates for Precise Targeting of SORT1-Mediated Vasculogenic Mimicry in the Tumor Microenvironment of TNBC-Derived MDA-MB-231 Breast and Ovarian ES-2 Clear Cell Carcinoma Cells

et al. 2021

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Vasculogenic mimicry (VM) is defined as the formation of microvascular channels by genetically deregulated cancer cells and is often associated with high tumor grade and cancer therapy resistance. This microcirculation system, independent of endothelial cells, provides oxygen and nutrients to tumors, and contributes also in part to metastasis. VM has been observed in ovarian cancer and in triple negative breast cancer (TNBC) and shown to correlate with decreased overall cancer patient survival. Thus, strategies designed to inhibit VM may improve cancer patient treatments. In this study, sortilin (SORT1) receptor was detected in in vitro 3D capillary-like structures formed by ES-2 ovarian cancer and MDA-MB-231 TNBC-derived cells when grown on Matrigel. SORT1 gene silencing or antibodies directed against its extracellular domain inhibited capillary-like structure formation. In vitro, VM also correlated with increased gene expression of matrix metalloproteinase-9 (MMP-9) and of the cancer stem cell marker CD133. In vivo ES-2 xenograft model showed PAS+/CD31- VM structures (staining positive for both SORT1 and CD133). TH1904, a Doxorubicin-peptide conjugate that is internalized by SORT1, significantly decreased in vitro VM at low nM concentrations. In contrast, VM was unaffected by unconjugated Doxorubicin or Doxil (liposomal Doxorubicin) up to μM concentrations. TH1902, a Docetaxel-peptide conjugate, altered even more efficiently in vitro VM at pM concentrations. Overall, current data evidence for the first time that 1) SORT1 itself exerts a crucial role in both ES-2 and MDA-MB-231 VM, and that 2) VM in these cancer cell models can be efficiently inhibited by the peptide-drug conjugates TH1902/TH1904. These new findings also indicate that both peptide-drug conjugates, in addition to their reported cytotoxicity, could possibly inhibit VM in SORT1-positive TNBC and ovarian cancer patients.

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Structural comparison of alanine‐substituted analogues of the calcitonin gene‐related peptide 8‐37 Importance of the C‐terminal segment for antagonistic activity

Boulanger

Khiat

Larocque

et al. 1996

International Journal of Peptide and Protein Research

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Replacement of specific residues of the antagonistic fragment human calcitonin gene-related peptide 8-37 (hCGRP 8-37) by alanine residues produces good antagonists to CGRPI receptors when the replacement is made at positions 17 and 20 but a poor antagonist when the replacement is made at position 21. The solution structures of hCGRP 8-37 and of the three alanine analogues have been determined by twodimensional 'H NMR spectroscopy and molecular modeling. Following the complete assignment of the NMR spectra, a comparison of the chemical shifts and of the temperature dependence of the amide chemical shifts showed that these parameters differed for [Ala17]-hCGRP 8-37 and [Ala2']-hCGRP 8-37 relative to hCGRP 8-37 in the N-terminal and central segments but not in the C-terminal segment (residues 31-37). In the case of [Ala'lI-hCGRP 8-37, differences were observed all along the chain. Molecular modeling calculations were performed by distance geometry, simulated annealing and energy minimization using NOE distance constraints. Molecular models showed a structural homology between [Ala"]-hCGRP 8-37, [Ala2']-hCGRP 8-37 and hCGRP 8-37 in the C-temGnal segment Asn3'-Phe3' as well as hydrogen bonding between Valz8 and Asn3'. These structural similarities are not observed with [Ala21]-hCGRP 8-37. Therefore, the structure of the C-terminal segment of hCGRP 8-37 appears to be critical for antagonistic activity at CGRPl receptors.

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Use of a Noninvasive Brain-Penetrating Peptide-Drug Conjugate Strategy to Improve the Delivery of Opioid Pain Relief Medications to the Brain

Eiselt

Otis

Belleville

et al. 2020

J Pharmacol Exp Ther

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The analgesic potency of morphine-6-glucuronide (M6G) has been shown to be 50-fold higher than morphine after intracerebral injection. However, the brain penetration of M6G is significantly lower than morphine, thus limiting its usefulness in pain management. Here, we created new entities by the conjugation of the Angiopep-2 peptide (An2) that crosses the bloodbrain-barrier (BBB) by LRP1 receptor-mediated transcytosis, with either morphine or M6G. We demonstrated improvement of BBB permeability of these new entities compared with that of unconjugated M6G and morphine. Intravenous or subcutaneous administration of the An2-M6G conjugate exerted greater and more sustained analgesic activity than equivalent doses of either morphine or M6G. Likewise, subcutaneous An2-morphine induced a delayed but prolonged antinociceptive effect. The effects of these conjugates on the gastrointestinal tract motility were also evaluated. An2-morphine significantly reduced the intestinal transit time while An2-M6G exhibited a reduced constipation profile, as compared to an equimolar dose of morphine. In summary, we have developed new brain-penetrant opioid conjugates exhibiting improved analgesia to side-effect ratios. These results thus support the use of An2 carrier peptides as an innovative BBB targeting technology to deliver effective drugs such as M6G for the pain management.

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Alain Larocque

Conjugation of a brain-penetrant peptide with neurotensin provides antinociceptive properties

TH1902, a new docetaxel‐peptide conjugate for the treatment of sortilin‐positive triple‐negative breast cancer

New Peptide-Drug Conjugates for Precise Targeting of SORT1-Mediated Vasculogenic Mimicry in the Tumor Microenvironment of TNBC-Derived MDA-MB-231 Breast and Ovarian ES-2 Clear Cell Carcinoma Cells

Structural comparison of alanine‐substituted analogues of the calcitonin gene‐related peptide 8‐37 Importance of the C‐terminal segment for antagonistic activity

Use of a Noninvasive Brain-Penetrating Peptide-Drug Conjugate Strategy to Improve the Delivery of Opioid Pain Relief Medications to the Brain

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