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ACR Stealer: Two observed intrusion chains amid increased threat activity | Microsoft Security Blog Least privilege for AI agents: Identity, access, and tool binding | Microsoft Security Blog Unpacking the AsyncAPI npm supply chain compromise and import-time payload delivery | Microsoft Security Blog Turning threat intelligence into decisive action with Defender Experts | Microsoft Security Blog Defending SaaS-based applications against ShinyHunters OAuth abuse | Microsoft Security Blog Microsoft Entra ID security updates: Passkeys are the default authentication method in Entra ID | Microsoft Security Blog Securing our future: July 2026 progress report on Microsoft's Secure Future Initiative | Microsoft Security Blog GigaWiper: Anatomy of a destructive backdoor assembled from multiple malware | Microsoft Security Blog Protecting Microsoft at AI speed: How SFI proactively hardens our cloud   | Microsoft Security Blog 5 insights from Frost & Sullivan’s 2025 Frost Radar™ for Cloud 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deliver them | Microsoft Security Blog Guarding AI memory | Microsoft Security Blog One intrusion, two cyberattackers: Uncovering parallel threat activity | Microsoft Security Blog AutoJack: How a single page can RCE the host running your AI agent  | Microsoft Security Blog New Forrester study shows customers who unified with Microsoft Security benefited from 124% ROI | Microsoft Security Blog From package to postinstall payload: Inside the Mastra npm supply chain compromise | Microsoft Security Blog Crypto Clipper uses Tor and worm-like propagation for persistence and control | Microsoft Security Blog Beyond the benchmark: Advancing security at AI speed  | Microsoft Security Blog ​​Forrester names Microsoft a Leader in the 2026 Extended Detection and Response Platforms Wave™ report | Microsoft Security Blog AI is accelerating cyberattacks—here’s how to stay ahead Microsoft Defender email security benchmarking: Key insights from one year of data | Microsoft Security Blog AI brands as 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and identities against infiltrating IT workers Making opportunistic cyberattacks harder by design Cross‑tenant helpdesk impersonation to data exfiltration: A human-operated intrusion playbook Containing a domain compromise: How predictive shielding shut down lateral movement Building your cryptographic inventory: A customer strategy for cryptographic posture management Dissecting Sapphire Sleet’s macOS intrusion from lure to compromise Incident response for AI: Same fire, different fuel The agentic SOC—Rethinking SecOps for the next decade Investigating Storm-2755: “Payroll pirate” attacks targeting Canadian employees Intent redirection vulnerability in third-party SDK exposed millions of Android wallets to potential risk Inside an AI‑enabled device code phishing campaign Storm-1175 focuses gaze on vulnerable web-facing assets in high-tempo Medusa ransomware operations Threat actor abuse of AI accelerates from tool to cyberattack surface Cookie-controlled PHP webshells: A stealthy tradecraft in Linux hosting environments Mitigating the Axios npm supply chain compromise Critical Infrastructure at Risk | Security Insider
Reconstructing AI activity in investigations
Phillip Misner, Microsoft AI Red Team · 2026-06-10 · via Microsoft Security Blog

AI systems are now part of everyday work. Investigators need a consistent way to reconstruct what happened within them. 

Security teams are already investigating activity involving Microsoft 365 Copilot and Azure AI services—from prompt injection attempts to unexpected data access. Those signals are observable. Without structure, they do not form a coherent account of what occurred. 

AI interactions generate telemetry across Microsoft Purview, Defender, and Sentinel. That telemetry captures who initiated an interaction, when it occurred, and which resources were involved. It provides the foundation for reconstructing AI activity in enterprise environments.  It’s turning those signals into an investigation. 

To help address that challenge, we’ve published a new investigator playbook for Microsoft 365 Copilot and Azure AI services. The playbook provides a structured approach for investigating AI-related activity using the telemetry already available across Microsoft security products. 

The methodology follows a scope–context–signal sequence. Investigations begin by identifying who interacted with AI systems, when the activity occurred, and which services were involved. From there, investigators expand into resource context: what the system accessed, what data may have been exposed, and how that activity aligns with expected behavior. Detection signals, including prompt injection attempts, anomalous usage patterns, or credential exposure alerts, are then evaluated within that broader chain of activity. 

AI telemetry is constructed metadata-first, providing identity, time, and resource context across interactions. That structure is what moves investigations from isolated signals to a coherent account of what occurred. When analyzed together, those elements allow investigators to establish what happened, understand the impact, and determine whether activity reflects normal usage, policy violations, or indicators of compromise. 

The playbook operationalizes this approach across Microsoft 365 Copilot and Azure AI services. It brings together the required configuration, queries, and detection patterns into a single working model — covering schema references, KQL queries, and detection logic — enabling investigators to follow AI activity across tools with fewer ad hoc pivots. It also extends that model to agent-based systems, where the investigative picture expands: which agents are deployed, how they are configured, what data they are authorized to access, and whether that authorization was used as expected. 

The outcome is practical. Response teams can move from isolated signals to a reconstructed account of observed activity: scoping AI usage, understanding what data was accessed during interactions, and assessing whether observed behavior is consistent with normal usage, policy violations, or indicators of active threat conditions across Microsoft security services.  

As AI becomes part of everyday business workflows, response teams need the same investigative rigor they apply to endpoints, identities, and cloud infrastructure. The ability to determine what happened, what data was involved, and whether activity was authorized is quickly becoming a core incident response capability. 

The playbook gives you the tools to answer it. Download it here: https://aka.ms/AIIRplaybook