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Use of Low Chromatic Aberration Objective PLAPON60XOSC for Quadruple Immunofluorescence of Brain Tissue


Use of Low Chromatic Aberration Objective PLAPON60XOSC for Quadruple Immunofluorescence of Brain Tissue

Introduction

Labelling molecules with a fluorescent dye before acquiring fluorescence images with an optical microscope such as confocal microscope is established as the most common experimental method for visualizing the localization of molecules in biological tissues and cells.

However, accurate visualization of multiple intercellular co-localizations was difficult in a single specimen because color shifts caused by chromatic aberration of the microscopic objective lenses made it difficult to use fluorescent dyes for accurate visualization of the intercellular co-localization in UV and near infrared regions. Olympus’ low chromatic aberration objective PLAPON60XOSC lens provides accurate visualization of fluorescence-labelled molecules with few color shifts, even in UV and near infrared regions. The following introduces cases where four types of fluorescent antibody were used to visualize the co-localization of fluorescence-labelled molecules accurately in a single specimen.

Performance Comparison of PLAPON60XOSC and UPLSAPO60XO

             PLAPON60×OSC                       UPLSAPO60×O
Axial chromatic aberration (Z direction) Performance_comparison_of_PLAPON60XOSC_and_UPLSAPO60XO
Lateral chromatic aberration (X-Y direction)

          Compared for PSF fluorescent beads (405 nm, 633 nm)

An application of the Low Chromatic Aberration Objective - Quadruple Immunofluorescence of Brain Tissue

Quadruple_immunofluorescence_of_brain_tissue_01
Quadruple immunofluorescence of brain tissue: Picture (1)
VIAAT staining (Alexa Fluor405, blue)
CB1 staining (Alexa Fluor488, green)
VGluT3 staining (Cy3, red)
DGLα staining (Alexa Fluor647, white)

Cannabinoid synthetase DGLα (white) and cannabinoid receptors CB1 (green) are clustered around the pyramidal cell somata (asterisk) in mouse basal amygdala, forming invaginating synapses (arrowhead) with a unique invagination structure. These invaginating synapses express vesicular inhibitory amino acid transporter (VIAAT) (blue) and vesicular glutamate transporter-3 (VGluT3) (red), which suggests that they have the neurochemical properties of both inhibitory and excitatory transmitters—GABA and glutamine acid, respectively. In contrast, the CB1-positive, VIAAT-positive common type of inhibitory synapses did not express VGluT3 if DGLα clusters were not formed around them, showing that they have the neurochemical properties of GABA only. Scale bar: 5 μm.

Quadruple_immunofluorescence_of_brain_tissue_02
Quadruple immunofluorescence of brain tissue: Picture (2)
VIAAT staining (Alexa Fluor405, blue)
CB1 staining (Alexa Fluor488, green)
VIP staining (Cy3, red)
DGLα staining (Alexa Fluor647, white)

There are two subtypes of GABAergic basket cells that express cannabinoid receptors CB1 and govern the pyramidal cell somata one subtype expresses cholecystokinin (CCK), and the other type expresses vasoactive intestinal peptide (VIP). This quadruple immunofluorescence staining shows the lack of DGLα (white) around the -positive nerve terminals (red) that strongly express CB1 (green) and VIAAT (blue), indicating that the VIP-positive nerve terminals are not involved in the formation of invaginating synapses. Scale bar: 5 μm.

Imaging system:
Microscope: Biological Confocal Laser Scanning Microscope FV1200
Objective: PLAPON60XOSC (60X, NA: 1.4)
Diode laser: 405 nm, 473 nm, 559 nm, 647 nm

Image data courtesy of:
Masahiko Watanabe, M.D., Ph.D.
Departments of Anatomy, Hokkaido University Graduate School of Medicine

Reference:
J Neurosci. 2015 Mar 11;35(10):4215-28. doi: 10.1523/JNEUROSCI.4681-14.2015.

Conclusion

Quadruple immunofluorescence for multiple functional molecules and cell markers as shown in Picture (1) and (2) can provide detailed information on cell expression and subcellular localization, which includes the codependent or independent relationship between related functional cells and intercellular spatial distances. Significantly, the detection sensitivity and the resolution of microscopes as well as the optical performance of objective lenses that can minimize chromatic aberrations are important factors in achieving the aims of immunofluorescence.

Products used for this application

激光扫描共聚焦显微镜

FV3000

  • 所提供的两种配置为仅装有常规振镜扫描单元的FV3000显微镜和装有常规/共振混合
  • 型扫描单元的FV3000RS
  • 可对所有通道进行全新、高效、精确的TruSpectral全真光谱检测
  • 经过优化,可以完成具有高灵敏度和低光毒性的活细胞成像操作
Super-Corrected Apochromat Objectives

PLAPON-SC

  • Chromatic aberration is compensated to the utmost limit.
  • Every single objective is delivered with measured chromatic aberration data and less than 0.1 µm on-axis chromatic aberration between 405 nm and 650 nm.
  • Suitable for strict colocalization analysis or super resolution.

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